* DIODES INCORPORATED AND ITS AFFILIATED COMPANIES AND SUBSIDIARIES (COLLECTIVELY, "DIODES") * PROVIDE THESE SPICE MODELS AND DATA (COLLECTIVELY, THE "SM DATA") "AS IS" AND WITHOUT ANY * REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED, INCLUDING ANY WARRANTY OF MERCHANTABILITY * OR FITNESS FOR A PARTICULAR PURPOSE, ANY WARRANTY ARISING FROM COURSE OF DEALING OR COURSE OF * PERFORMANCE, OR ANY WARRANTY THAT ACCESS TO OR OPERATION OF THE SM DATA WILL BE UNINTERRUPTED, * OR THAT THE SM DATA OR ANY SIMULATION USING THE SM DATA WILL BE ERROR FREE. TO THE MAXIMUM * EXTENT PERMITTED BY LAW, IN NO EVENT WILL DIODES BE LIABLE FOR ANY DIRECT OR INDIRECT, * SPECIAL, INCIDENTAL, PUNITIVE OR CONSEQUENTIAL DAMAGES ARISING OUT OF OR IN CONNECTION WITH * THE PRODUCTION OR USE OF SM DATA, HOWEVER CAUSED AND UNDER WHATEVER CAUSE OF ACTION OR THEORY * OF LIABILITY BROUGHT (INCLUDING, WITHOUT LIMITATION, UNDER ANY CONTRACT, NEGLIGENCE OR OTHER * TORT THEORY OF LIABILITY), EVEN IF DIODES HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES, * AND DIODES' TOTAL LIABILITY (WHETHER IN CONTRACT, TORT OR OTHERWISE) WITH REGARD TO THE SM * DATA WILL NOT, IN THE AGGREGATE, EXCEED ANY SUMS PAID BY YOU TO DIODES FOR THE SM DATA. *ADC114YUQ Spice model *SIMULATOR=SIMETRIX *ORIGIN=PH *DATE=16April2019 *VERSION=1 *#SIMETRIX ******************************************************************** *Notes: Pre biased NPN BJT with resistors *NPN; Si; 50.0V 0.150A 200MHz *This subckt includes the resistors. For external resistors use .MODEL QADC1 ******************************************************************** **************** C B E .SUBCKT ADC114YUQ 1 2 3 R1 2 Base Rb 10k R2 Base 3 Re 47k Q1 1 Base 3 QADC1 .MODEL Rb RES + R=1 .MODEL Re RES + R=1 .MODEL QADC1 NPN + IS=16.8f + NF=.98 + BF=766 + VAF=40 + IKF=0.03 + ISE= 100p + NE=2.05 + NKF=0.5 + BR=4.00 + NR=1 + VAR=28.0 + IKR=0.225 + RE=0.2 + RB=12 + RC=0.2 + XTB=1.5 + XTI=3 + CJE=11.3p + VJE=1.10 + MJE=0.500 + CJC=4.50p + VJC=0.300 + MJC=0.300 + TF=549p + TR=119n + EG=1.12 .ENDS ADC114YUQ ****************************************************************************** * (c) 2019 Diodes Inc * * The copyright in these models and the designs embodied belong * to Diodes Incorporated (" Zetex "). They are supplied * free of charge by Zetex for the purpose of research and design * and may be used or copied intact (including this notice) for * that purpose only. All other rights are reserved. The models * are believed accurate but no condition or warranty as to their * merchantability or fitness for purpose is given and no liability * in respect of any use is accepted by Diodes Incorporated, its distributors * or agents. * * Diodes Zetex Semiconductors Ltd, Zetex Technology Park, Chadderton, * Oldham, United Kingdom, OL9 9LL ****************************************************************************** *ADTC114EUAQ Spice model *SIMULATOR=SIMETRIX *ORIGIN=DZSL_DPG_PH *DATE=24January2020 *VERSION=2 *#SIMETRIX ******************************************************************** *Notes: Pre biased NPN BJT with resistors *NPN; Si; 50.0V 0.150A 200MHz *This subckt includes the resistors. For external resistors use .MODEL QADC1 ******************************************************************** **************** C B E .SUBCKT ADTC114EUAQ 1 2 3 R1 2 Base Rb 10k R2 Base 3 Re 10k Q1 1 Base 3 QADC1 .MODEL Rb RES + R=1 .MODEL Re RES + R=1 .MODEL QADC1 NPN + IS=16.8f + NF=.98 + BF=766 + VAF=40 + IKF=0.03 + ISE= 100p + NE=2.05 + NKF=0.5 + BR=4.00 + NR=1 + VAR=28.0 + IKR=0.225 + RE=0.2 + RB=12 + RC=0.2 + XTB=1.5 + XTI=3 + CJE=11.3p + VJE=1.10 + MJE=0.500 + CJC=4.50p + VJC=0.300 + MJC=0.300 + TF=549p + TR=269n; 119n + EG=1.12 .ENDS ADTC114EUAQ ****************************************************************************** * (c) 2020 Diodes Inc * * The copyright in these models and the designs embodied belong * to Diodes Incorporated (" Zetex "). They are supplied * free of charge by Zetex for the purpose of research and design * and may be used or copied intact (including this notice) for * that purpose only. All other rights are reserved. The models * are believed accurate but no condition or warranty as to their * merchantability or fitness for purpose is given and no liability * in respect of any use is accepted by Diodes Incorporated, its distributors * or agents. * * Diodes Zetex Semiconductors Ltd, Zetex Technology Park, Chadderton, * Oldham, United Kingdom, OL9 9LL ****************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114EH;DI_DCX114EH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114EH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114EH;DI_DCX114EH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114EH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114EU;DI_DCX114EU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114EU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114EU;DI_DCX114EU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114EU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114TH;DI_DCX114TH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114TH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114TH;DI_DCX114TH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114TH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114TU;DI_DCX114TU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114TU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114TU;DI_DCX114TU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114TU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114YH;DI_DCX114YH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114YH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114YH;DI_DCX114YH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114YH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114YU;DI_DCX114YU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114YU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX114YU;DI_DCX114YU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX114YU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX123JH;DI_DCX123JH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX123JH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX123JH;DI_DCX123JH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX123JH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX123JU;DI_DCX123JU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX123JU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX123JU;DI_DCX123JU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX123JU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX124EH;DI_DCX124EH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX124EH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX124EH;DI_DCX124EH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX124EH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX124EK;DI_DCX124EK;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX124EK PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX124EK;DI_DCX124EK;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX124EK NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX124EU;DI_DCX124EU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX124EU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX124EU;DI_DCX124EU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX124EU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX124EU;DI_DCX124EU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX124EU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX124EU;DI_DCX124EU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX124EU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX143EH;DI_DCX143EH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX143EH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX143EH;DI_DCX143EH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX143EH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX143TH;DI_DCX143TH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX143TH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX143TH;DI_DCX143TH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX143TH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX143TU;DI_DCX143TU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX143TU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX143TU;DI_DCX143TU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX143TU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX144EH;DI_DCX144EH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX144EH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX144EH;DI_DCX144EH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX144EH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX144EU;DI_DCX144EU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX144EU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ******************************************************************************************************************************** *************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DCX144EU;DI_DCX144EU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DCX144EU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 )********* Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA114EH;DI_DDA114EH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA114EH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA114EU;DI_DDA114EU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA114EU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA114TH;DI_DDA114TH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA114TH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA114TU;DI_DDA114TU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA114TU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA114TU;DI_DDA114TU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA114TU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA114YH;DI_DDA114YH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA114YH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA114YU;DI_DDA114YU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA114YU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA123JH;DI_DDA123JH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA123JH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA124EH;DI_DDA124EH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA124EH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA124EU;DI_DDA124EU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA124EU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA124EU;DI_DDA124EU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA124EU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA143EH;DI_DDA143EH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA143EH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA143TH;DI_DDA143TH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA143TH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA143TU;DI_DDA143TU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA143TU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA143TU;DI_DDA143TU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA143TU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA144EH;DI_DDA144EH;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA144EH PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA144EU;DI_DDA144EU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA144EU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDA144EU;DI_DDA144EU;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDA144EU PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC114EH;DI_DDC114EH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC114EH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC114EU;DI_DDC114EU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC114EU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC114TH;DI_DDC114TH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC114TH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC114TU;DI_DDC114TU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC114TU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC114YU;DI_DDC114YU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC114YU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC123JH;DI_DDC123JH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC123JH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC123JU;DI_DDC123JU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC123JU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC124EH;DI_DDC124EH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC124EH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC124EU;DI_DDC124EU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC124EU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC143EH;DI_DDC143EH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC143EH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC143TU;DI_DDC143TU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC143TU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC144EH;DI_DDC144EH;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC144EH NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDC144EU;DI_DDC144EU;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDC144EU NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA113TCA;DI_DDTA113TCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA113TCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA113TE;DI_DDTA113TE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA113TE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA113TUA;DI_DDTA113TUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA113TUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA113ZCA;DI_DDTA113ZCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA113ZCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA113ZE;DI_DDTA113ZE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA113ZE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA113ZUA;DI_DDTA113ZUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA113ZUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114ECA;DI_DDTA114ECA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114ECA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114EE;DI_DDTA114EE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114EE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114EUA;DI_DDTA114EUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114EUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114GCA;DI_DDTA114GCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114GCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114GE;DI_DDTA114GE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114GE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114GUA;DI_DDTA114GUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114GUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114TCA;DI_DDTA114TCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114TCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114TE;DI_DDTA114TE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114TE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114TUA;DI_DDTA114TUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114TUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114WCA;DI_DDTA114WCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114WCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114WE;DI_DDTA114WE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114WE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114WUA;DI_DDTA114WUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114WUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114YCA;DI_DDTA114YCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114YCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114YE;DI_DDTA114YE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114YE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) *SRC=DDTA114YLP;;BJTs PNP; Si; 50.0V 0.100A 250MHz Diodes, Inc. .MODEL PNP (IS=10.2f NF=1.00 BF=1.14k VAF=127 + IKF=14.7m ISE=25.1p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.150 RE=54.2m RB=0.217 RC=21.7m + XTB=1.5 CJE=30.8p VJE=1.10 MJE=0.500 CJC=9.94p VJC=0.300 + MJC=0.300 TF=552p TR=95.0n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA114YUA;DI_DDTA114YUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA114YUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA115ECA;DI_DDTA115ECA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA115ECA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA115EE;DI_DDTA115EE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA115EE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA115EUA;DI_DDTA115EUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA115EUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA115GCA;DI_DDTA115GCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA115GCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA115GE;DI_DDTA115GE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA115GE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA115GUA;DI_DDTA115GUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA115GUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA115TCA;DI_DDTA115TCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA115TCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA115TE;DI_DDTA115TE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA115TE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA115TUA;DI_DDTA115TUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA115TUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123ECA;DI_DDTA123ECA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123ECA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123EE;DI_DDTA123EE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123EE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123EUA;DI_DDTA123EUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123EUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123JCA;DI_DDTA123JCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123JCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123JE;DI_DDTA123JE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123JE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123JUA;DI_DDTA123JUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123JUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123TCA;DI_DDTA123TCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123TCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123TE;DI_DDTA123TE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123TE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123TUA;DI_DDTA123TUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123TUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123YCA;DI_DDTA123YCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123YCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123YE;DI_DDTA123YE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123YE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA123YUA;DI_DDTA123YUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA123YUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124ECA;DI_DDTA124ECA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124ECA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124EE;DI_DDTA124EE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124EE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124EUA;DI_DDTA124EUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124EUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124GCA;DI_DDTA124GCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124GCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124GE;DI_DDTA124GE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124GE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124GUA;DI_DDTA124GUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124GUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124TCA;DI_DDTA124TCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124TCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124TE;DI_DDTA124TE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124TE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124TUA;DI_DDTA124TUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124TUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124XCA;DI_DDTA124XCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124XCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124XE;DI_DDTA124XE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124XE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA124XUA;DI_DDTA124XUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA124XUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA125TE;DI_DDTA125TE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA125TE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143ECA;DI_DDTA143ECA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143ECA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143EE;DI_DDTA143EE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143EE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143EUA;DI_DDTA143EUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143EUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143FCA;DI_DDTA143FCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143FCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143FE;DI_DDTA143FE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143FE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143FUA;DI_DDTA143FUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143FUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143TCA;DI_DDTA143TCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143TCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143TE;DI_DDTA143TE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143TE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143TUA;DI_DDTA143TUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143TUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143XCA;DI_DDTA143XCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143XCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143XE;DI_DDTA143XE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143XE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143XUA;DI_DDTA143XUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143XUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143ZCA;DI_DDTA143ZCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143ZCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143ZE;DI_DDTA143ZE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143ZE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA143ZUA;DI_DDTA143ZUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA143ZUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144ECA;DI_DDTA144ECA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144ECA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144EE;DI_DDTA144EE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144EE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144EUA;DI_DDTA144EUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144EUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144GCA;DI_DDTA144GCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144GCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144GE;DI_DDTA144GE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144GE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144GUA;DI_DDTA144GUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144GUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144TCA;DI_DDTA144TCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144TCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144TE;DI_DDTA144TE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144TE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144TUA;DI_DDTA144TUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144TUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144VCA;DI_DDTA144VCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144VCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144VE;DI_DDTA144VE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144VE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144VUA;DI_DDTA144VUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144VUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144WCA;DI_DDTA144WCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144WCA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144WE;DI_DDTA144WE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144WE PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTA144WUA;DI_DDTA144WUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTA144WUA PNP (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTB113ZC;DI_DDTB113ZC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTB113ZC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTB114EC;DI_DDTB114EC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTB114EC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTB123YC;DI_DDTB123YC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTB123YC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTB143EU;DI_DDTB143EU;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTB143EU PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC113TCA;DI_DDTC113TCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC113TCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC113TE;DI_DDTC113TE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC113TE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) *SRC=DDTA113TLP;;BJTs PNP; Si; 50.0V 0.100A 250MHz Diodes, Inc. - .MODEL PNP (IS=10.2f NF=1.00 BF=415 VAF=127 + IKF=74.6m ISE=82.5f NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.120 RE=0.615 RB=2.46 RC=0.246 + XTB=1.5 CJE=30.8p VJE=1.10 MJE=0.500 CJC=9.94p VJC=0.300 + MJC=0.300 TF=479p TR=97.1n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC113TUA;DI_DDTC113TUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC113TUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC113ZCA;DI_DDTC113ZCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC113ZCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC113ZE;DI_DDTC113ZE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC113ZE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC113ZUA;DI_DDTC113ZUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC113ZUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114EE;DI_DDTC114EE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114EE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114EUA;DI_DDTC114EUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114EUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114GUA;DI_DDTC114GUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114GUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114TCA;DI_DDTC114TCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114TCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114TE;DI_DDTC114TE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114TE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114TUA;DI_DDTC114TUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114TUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114WCA;DI_DDTC114WCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114WCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114WE;DI_DDTC114WE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114WE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114WUA;DI_DDTC114WUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114WUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114YCA;DI_DDTC114YCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114YCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114YE;DI_DDTC114YE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114YE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC114YUA;DI_DDTC114YUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC114YUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC115EE;DI_DDTC115EE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC115EE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC115EUA;DI_DDTC115EUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC115EUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC115GE;DI_DDTC115GE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC115GE NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC115GUA;DI_DDTC115GUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC115GUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC115TCA;DI_DDTC115TCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC115TCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC115TE;DI_DDTC115TE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC115TE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC115TUA;DI_DDTC115TUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC115TUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123EE;DI_DDTC123EE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123EE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123EUA;DI_DDTC123EUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123EUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123JE;DI_DDTC123JE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123JE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123JUA;DI_DDTC123JUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123JUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123TCA;DI_DDTC123TCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123TCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123TE;DI_DDTC123TE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123TE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123TUA;DI_DDTC123TUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123TUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123YCA;DI_DDTC123YCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123YCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123YE;DI_DDTC123YE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123YE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC123YUA;DI_DDTC123YUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC123YUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124EE;DI_DDTC124EE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124EE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124EUA;DI_DDTC124EUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124EUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124GE;DI_DDTC124GE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124GE NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124GUA;DI_DDTC124GUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124GUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124TCA;DI_DDTC124TCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124TCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124TE;DI_DDTC124TE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124TE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124TUA;DI_DDTC124TUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124TUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124XCA;DI_DDTC124XCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124XCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124XE;DI_DDTC124XE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124XE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC124XUA;DI_DDTC124XUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC124XUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143EE;DI_DDTC143EE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143EE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143EUA;DI_DDTC143EUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143EUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143FCA;DI_DDTC143FCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143FCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143FE;DI_DDTC143FE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143FE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143FUA;DI_DDTC143FUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143FUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143TCA;DI_DDTC143TCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143TCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143TE;DI_DDTC143TE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143TE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143TUA;DI_DDTC143TUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143TUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143XCA;DI_DDTC143XCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143XCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143XE;DI_DDTC143XE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143XE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143XUA;DI_DDTC143XUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143XUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143ZCA;DI_DDTC143ZCA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143ZCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143ZE;DI_DDTC143ZE;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143ZE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC143ZUA;DI_DDTC143ZUA;BJTs PNP; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC143ZUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144ECA;DI_DDTC144ECA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144ECA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144EE;DI_DDTC144EE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144EE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144EUA;DI_DDTC144EUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144EUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144GE;DI_DDTC144GE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144GE NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** ****************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144GUA;DI_DDTC144GUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144GUA NPN (IS=16.8f NF=1.00 BF=766 VAF=127 + IKF=91.1m ISE=3.59p NE=2.00 BR=4.00 NR=1.00 + VAR=28.0 IKR=0.225 RE=0.665 RB=2.66 RC=0.266 + XTB=1.5 CJE=11.3p VJE=1.10 MJE=0.500 CJC=4.50p VJC=0.300 + MJC=0.300 TF=549p TR=119n EG=1.12 ) ***************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144TCA;DI_DDTC144TCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144TCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144TE;DI_DDTC144TE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144TE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144TUA;DI_DDTC144TUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144TUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144VCA;DI_DDTC144VCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144VCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144VE;DI_DDTC144VE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144VE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144VUA;DI_DDTC144VUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144VUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144WCA;DI_DDTC144WCA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144WCA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144WE;DI_DDTC144WE;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144WE NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTC144WUA;DI_DDTC144WUA;BJTs NPN; Si; 50.0V 0.150A 200MHz Diodes Inc. PBTs .MODEL DI_DDTC144WUA NPN (IS=9.98f NF=1.00 BF=766 VAF=127 + IKF=54.7m ISE=2.14p NE=2.00 BR=4.00 NR=1.00 + VAR=24.0 IKR=0.135 RE=0.815 RB=3.26 RC=0.326 + XTB=1.5 CJE=20.7p VJE=1.10 MJE=0.500 CJC=11.4p VJC=0.300 + MJC=0.300 TF=567p TR=119n EG=1.12 ) ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD113EC;DI_DDTD113EC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD113EC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD113ZC;DI_DDTD113ZC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD113ZC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD113ZU;DI_DDTD113ZU;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD113ZU PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD114EC;DI_DDTD114EC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD114EC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD123EC;DI_DDTD123EC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD123EC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD123TC;DI_DDTD123TC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD123TC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD123TU;DI_DDTD123TU;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD123TU PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD123YC;DI_DDTD123YC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD123YC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD142JC;DI_DDTD142JC;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD142JC PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ****************************************************************************************************************************** ************************************************************************************************************************************** Note: The following SPICE model is for the transistor element. When applying this SPICE model to your circuit simulation be certain to add R1 and/or R2 values per the table found on sheet 1 of the data sheet. Allow +/- 30% resistance tolerance and +/- 20% for R2/R1 ratio tolerance. *SRC=DDTD142JU;DI_DDTD142JU;BJTs PNP; Si; 32.0V 0.500A 220MHz Diodes Inc. PBTs .MODEL DI_DDTD142JU PNP (IS=50.6f NF=1.00 BF=534 VAF=102 + IKF=0.340 ISE=17.3p NE=2.00 BR=4.00 NR=1.00 + VAR=20.0 IKR=0.840 RE=0.283 RB=1.13 RC=0.113 + XTB=1.5 CJE=55.3p VJE=1.10 MJE=0.500 CJC=21.3p VJC=0.300 + MJC=0.300 TF=605p TR=120n EG=1.12 ) ******************************************************************************************************************************