DCX114YU-7-F

**DCX(XXXX)U** 

**SMALL SIGNAL COMPLEMENTARY PRE-BIASED DUAL TRANSISTOR** 

## **Features** 

## **Mechanical Data** 

- Epitaxial Planar Die Construction 

- Built-In Biasing Resistors 

- Surface Mount Package Suited for Automated Assembly 

- **Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2)** 

- **Halogen and Antimony Free. “Green” Device (Note 3)** 

- **Qualified to AEC-Q101 Standards for High Reliability** 

- **PPAP Capable (Note 4)** 

- Case: SOT363 

- Case Material: Molded Plastic, “Green” Molding Compound; UL Flammability Classification Rating 94V-0 

- Moisture Sensitivity:  Level 1 per J-STD-020 

- Terminals: Finish – Matte Tin Plated Leads, Solderable per MIL-STD-202, Method 208 

- Weight: 0.006 grams (Approximate) 

**==> picture [518 x 479] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
|Part Number|R1(NOM)|R2(NOM)|Part Number|R1 Only|
|DCX124EU|22kΩ|22kΩ|DCX143TU|4.7kΩ|
|DCX144EU|47kΩ|47kΩ|DCX114TU|10kΩ|
|DCX114YU|10kΩ|47kΩ|
|DCX123JU|2.2kΩ|47kΩ|
|DCX114EU|10kΩ|10kΩ|
|DCX143EU|4.7kΩ|4.7kΩ|
|DCX143ZU|4.7kΩ|47kΩ|
|DCX115EU|100kΩ|100kΩ|
|SOT363|
|R 1|
|R 1|
|e.|
|b¥|
|R1, R2|R1 Only|
|Top View|Device Schematic|
|Ordering Informationg Information Information|(Notes 4, 5 & 6)|
|Product|Status|Compliance|Marking|Reel Size|Tape Width|Quantity per|
|(inches)|(mm)|Reel|
|a|DCX124EU-7-F|Active|AEC-Q101|GC|C17|7|8|3,000|
|a|DCX124EUQ-7-F|Ge|NRND (Use ACX124EUQ)|Automotive|OO|C17|7|OO|8|3,000|
|a|DCX124EUQ-13-F|NRND (Use ACX124EUQ)|Automotive|GC|C17|13|8|10,000|
|aaa|DDCDCX124ECX144EX144EUQUU-7R-F -1-7-F 3R-F|GeGe|NRND (UseAActct AivivCeeX124EUQ)|(OO|AAEAEutoCCm--QQot11iv001 1 e|GCOO|CCC17 2200|17 7 3|OO|888|13,0003,0000,000|
|a|DCX144EUQ-7-F|Ge|Active|Automotive|OO|C20|7|OO|8|3,000|
|a|DCX114YU-7-F|a|Active|GC|AEC-Q101|C14|7|8|3,000|
|a|DCX114YUQ-7-F|(OO|NRND (Use ACX114YUQ)|Automotive|C14|7|8|3,000|
|a|DCX114YUQ-13-F|OC|NRND (Use ACX114YUQ)|Automotive|C14|13|8|10,000|
|Ge|DCX114YUQ-13R-F|NRND (Use ACX114YUQ)|Automotive|C14|13|8|10,000|
|a|DCX123JU-7-F|OC|Active|AEC-Q101|OO|C06|7|8|3,000|
|Ge|DCX123JUQ-7-F|Active|Automotive|C06|7|8|3,000|
|a|DCX114EU-7-F|OC|Active|AEC-Q101|OO|C13|7|8|3,000|
|G|DCX114EU-13R-F|e|Active|(OO|AEC-Q101|C13|13|8|(O|10,000|
|DCX114EUQ-7-F|NRND (Use ACX114EUQ)|Automotiv|e|e|C13|7|8|3,000|
|a|DCX114EUQ-13-F|OC|NRND (Use ACX114EUQ)|Automotive|OO|C13|13|8|10,000|
|Ge|DCX114EUQ-13R-F|NRND (Use ACX114EUQ)|Automotive|C13|13|8|10,000|
|a|DCX143TU-7-F|OC|Active|AEC-Q101|OO|C07|7|8|3,000|
|Ge|DCX143EU-7-F|Active|AEC-Q101|C08|7|8|3,000|
|a|DCX114TU-7-F|OC|Active|AEC-Q101|OO|C12|7|8|3,000|
|Ge|DCX143ZU-7-F|Active|AEC-Q101|C02|7|8|3,000|
|DCX115EU-7-F|Active|AEC-Q101|C01|7|8|3,000|
|ee ee|a|OOa|GO|
|Notes:|1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS), 2011/65/EU (RoHS 2) & 2015/863/EU (RoHS 3) compliant.|
|CQ1|BQ2|EQ2|
|6|5|4|
|Q1|
|Q2|
|1|2|3|
|EQ1|BQ1|CQ2|
|CQ 1|BQ2|EQ2|
|6|5|4|
|Q1|
|Q2|
|1|2|3|
|EQ1|BQ1|CQ2|
|R 2|
|R 2|
|R 1|
|R 1|

**----- End of picture text -----**<br>


## **Ordering Informationg Information Information** (Notes 4, 5 & 6) 

   2. See https://www.diodes.com/quality/lead-free/ for more information about Diodes Incorporated’s definitions of Halogen- and Antimony-free, "Green" and Lead-free. 

   3. Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and <1000ppm antimony compounds. 

   4. Automotive products are AEC-Q101 qualified and are PPAP capable. Automotive, AEC-Q101 and standard products are electrically and thermally the same, except where specified. For more information, please refer to http://www.diodes.com/quality/. 

5. -7R and -13R are parts rotated in the pocket tape by +180°. For packaging details, go to our website at 

https://www.diodes.com/design/support/packaging/diodes-packaging/. 

   6.  NRND = Not Recommended for New Design. 

1 of 13 **www.diodes.com** 

DCX(XXXX)U Document number: DS30347 Rev. 19 - 2 

May 2018 © Diodes Incorporated 

**DCX(XXXX)U** 

## **Marking Information** 

**SOT363** 

CXX = Product Type Marking Code YM = Date Code Marking CXX YM Y = Year (ex: F = 2018) M = Month (ex: 9 = September) 

Date Code Key 

|**Absolute Maximum Ratings NPN Section **(@TA= +25°C, unless otherwise specified.)|**Absolute Maximum Ratings NPN Section **(@TA= +25°C, unless otherwise specified.)|**Absolute Maximum Ratings NPN Section **(@TA= +25°C, unless otherwise specified.)|**Absolute Maximum Ratings NPN Section **(@TA= +25°C, unless otherwise specified.)|**Absolute Maximum Ratings NPN Section **(@TA= +25°C, unless otherwise specified.)|
|---|---|---|---|---|
||||||
|**Characteristic**||**Symbol**|**Value**|**Unit**|
|SupplyVoltage  <Pin:(6)to(1)>||VCC|50|V|
|Input Voltage<br><Pin: (2) to (1)>|DCX124EU<br>DCX144EU<br>DCX114YU<br>DCX123JU<br>DCX114EU<br>DCX143TU<br>DCX143EU<br>DCX114TU<br>DCX143ZU<br>DCX115EU|VIN|-10 to +40<br>-10 to +40<br>-6 to +40<br>-5 to +12<br>-10 to +40<br>-5V Max<br>-10 to +30<br>-5V Max<br>-10 to +30<br>-10 to +40|V|
|Output Current|DCX124EU<br>DCX144EU<br>DCX114YU<br>DCX123JU<br>DCX114EU<br>DCX143TU<br>DCX143EU<br>DCX114TU<br>DCX143ZU<br>DCX115EU|IO|30<br>30<br>70<br>100<br>50<br>100<br>100<br>100<br>100<br>20|mA|
|Output Current||IC (Max)|100|mA|



2 of 13 **www.diodes.com** 

DCX(XXXX)U Document number: DS30347 Rev. 19 - 2 

May 2018 © Diodes Incorporated 

## **DCX(XXXX)U** 

**Absolute Maximum Ratings PNP Section** (@TA = +25°C, unless otherwise specified.) 

|**Absolute Maximum Ratings PNP Sectiongs PNP Sections PNP Section **(@TA = +25°C, unless otherwise specified.)|**Absolute Maximum Ratings PNP Sectiongs PNP Sections PNP Section **(@TA = +25°C, unless otherwise specified.)|(@TA = +25°C, unless otherwise specified.)A = +25°C, unless otherwise specified.)= +25°C, unless otherwise specified.)|(@TA = +25°C, unless otherwise specified.)A = +25°C, unless otherwise specified.)= +25°C, unless otherwise specified.)||
|---|---|---|---|---|
|**Characteristic**||**Symbol**|**Value**|**Unit**|
|SupplyVoltage  <Pin:(4)to(3)>||VCC|50|V|
|Input Voltage<br><Pin: (5) to (4)>|DCX124EU<br>DCX144EU<br>DCX114YU<br>DCX123JU<br>DCX114EU<br>DCX143TU<br>DCX143EU<br>DCX114TU<br>DCX143ZU<br>DCX115EU|VIN|+10 to -40<br>+10 to -40<br>+6 to -40<br>+5 to -12<br>+10 to -40<br>+5V Max<br>+10 to -30<br>+5V Max<br>+5 to -30<br>+10 to -40|V|
|Output Current|DCX124EU<br>DCX144EU<br>DCX114YU<br>DCX123JU<br>DCX114EU<br>DCX143TU<br>DCX143EU<br>DCX114TU<br>DCX143ZU<br>DCX115EU|IO|-30<br>-30<br>-70<br>-100<br>-50<br>-100<br>-100<br>-100<br>-100<br>-20|mA|
|Output Current||IC (Max)|-100|mA|



## **Thermal Characteristics** (@TA = +25°C, unless otherwise specified.) 

|**Thermal Characteristics**(@TA = +25°C, unless otherwise specified.)A = +25°C, unless otherwise specified.)= +25°C, unless otherwise specified.)|**Thermal Characteristics**(@TA = +25°C, unless otherwise specified.)A = +25°C, unless otherwise specified.)= +25°C, unless otherwise specified.)|**Thermal Characteristics**(@TA = +25°C, unless otherwise specified.)A = +25°C, unless otherwise specified.)= +25°C, unless otherwise specified.)|**Thermal Characteristics**(@TA = +25°C, unless otherwise specified.)A = +25°C, unless otherwise specified.)= +25°C, unless otherwise specified.)|
|---|---|---|---|
|||||
|**Characteristic**|**Symbol**|**Value**|**Unit**|
|Power Dissipation(Notes 7 & 8)|PD|200|mW|
|Thermal Resistance,Junction to Ambient Air(Note 7)|RJA|625|°C/W|
|Operatingand Storage Temperature Range|TJ,TSTG|-55 to +150|°C|



- Notes: 7. Mounted on FR-4 PC Board with minimum recommended pad layout. 

8. 150mW per element must not be exceeded. 

3 of 13 **www.diodes.com** 

DCX(XXXX)U Document number: DS30347 Rev. 19 - 2 

May 2018 © Diodes Incorporated 

**DCX(XXXX)U** 

## **Electrical Characteristics NPN Section** (@TA = +25°C, unless otherwise specified.) 

|**Characteristic**|**Characteristic**|**Symbol**|**Min**|**Typ**|**Max**|**Unit**|**Test Condition**|
|---|---|---|---|---|---|---|---|
|**R1 Only (DCX143TU & DCX114TU)**||||||||
|Collector-BaseBreakdown Voltage<br>~~pf~~||BVCBO<br>~~pf~~|50<br>~~pf~~|<br>~~pf~~|<br>~~pf~~<br>~~(OG~~|V<br>~~pf~~<br>~~(OG~~|IC= 50μA<br>~~pf~~<br>~~CO~~|
|Collector-Emitter Breakdown Voltage<br>~~CGO~~||BVCEO<br>~~CGO~~|50<br>~~CGO~~|<br>~~CGO~~|<br>~~CGO~~<br>~~(OG~~<br>~~GO~~|V<br>~~CGO~~<br>~~(OG~~<br>~~(OC~~|IC= 1mA<br>~~CGO~~<br>~~CO~~<br>~~(OC~~|
|Emitter-BaseBreakdown Voltage<br>~~CGO~~||BVEBO<br>~~CGO~~|5<br>~~CGO~~|<br>~~CGO~~|<br>~~(OG~~<br>~~CGO~~<br>~~GO~~|V<br>~~(OG ~~<br>~~CGO~~<br>~~(OC~~|IE= 50μA<br> ~~CO~~<br>~~CGO~~<br>~~(OC~~|
|Collector Cutoff Current<br>~~pf~~||ICBO<br>~~pf~~|<br>~~pf~~|<br>~~pf~~|0.5<br>~~GO ~~<br>~~pf~~|μA<br> ~~(OC~~<br>~~pf~~|VCB= 50V<br>~~(OC~~<br>~~pf~~|
|EmitterCutoffCurrent<br>~~pf~~||IEBO<br>~~pf~~<br>~~ee~~|<br>~~pf~~<br>~~ee~~|<br>~~pf~~|0.5<br>~~pf~~|μA<br>~~pf~~|VEB= 4V<br>~~pf~~|
|Collector-Emitter Saturation Voltage<br>~~pf~~<br>~~ee~~||VCE(SAT)<br>~~pf~~<br>~~ee~~<br>~~ee~~|<br>~~pf~~<br>~~ee~~<br>~~ee~~|<br>~~pf~~<br>~~ee~~|0.3<br>~~pf~~<br>~~ee~~<br>~~GO~~|V<br>~~pf~~<br>~~ee~~<br>~~(OC~~|IC/IB= 2.5mA / 0.25mA     DCX143TU<br>IC/IB= 1mA / 0.1mA          DCX114TU<br>~~pf~~<br>~~ee~~<br>~~(OC~~|
|DC CurrentTransfer Ratio<br>~~CGO~~||hFE<br>~~ee~~<br>~~CGO~~|100<br>~~ee~~<br>~~CGO~~|250<br>~~CGO~~|600<br>~~CGO~~<br>~~GO~~|<br>~~CGO~~<br>~~(OC~~|IC= 1mA,VCE= 5V<br>~~CGO~~<br>~~(OC~~|
|Input Resistor(R1)Tolerance<br>~~pf~~||R1<br>~~pf~~|-30<br>~~pf~~|<br>~~pf~~|+30<br>~~GO ~~<br>~~pf~~<br>~~CO CG~~|%<br> ~~(OC~~<br>~~pf~~<br>~~CG~~|<br>~~(OC~~<br>~~pf~~<br>~~CG~~|
|Gain-Bandwidth Product<br>~~CGO~~||fT<br>~~CGO~~|<br>~~CGO~~|250<br>~~CGO~~|<br>~~CGO~~<br>~~CO CG~~|MHz<br>~~CGO~~<br>~~CG~~|VCE= 10V,IE= -5mA,f = 100MHz<br>~~CGO~~<br>~~CG~~|
|**R1/R2 Only**<br>~~CGO~~<br>~~CO CG~~||||||||
|Input Voltage<br>~~pe~~<br>~~PT~~<br>~~P~~<br>~~p~~<br>~~|~~<br>~~Pp~~<br>~~Pp~~<br>~~P|~~<br>~~|~~<br>~~P|~~<br>~~Pp~~<br>~~P|~~|DCX124EU|Vl(oFF)<br>~~PT~~|0.5|1.1||V<br>|VCC= 5V, IO= 100μA<br>~~Po~~|
||DCX144EU||0.5|1.1||||
||DCX114YU<br>~~pe~~||0.3<br>~~a~~|<br>~~a~~||||
||DCX123JU<br>~~pe~~||0.5<br>~~a~~|<br>~~a~~||||
||DCX114EU<br>~~pe~~||0.5<br>~~a~~|1.1<br>~~a~~||||
||DCX143EU<br>~~PT~~||0.5<br>~~a~~|1.16<br>~~a~~||||
||DCX143ZU<br>~~PT~~<br>~~P~~||0.5<br>~~a~~<br>~~a~~|<br>~~a~~<br>~~a~~||||
||DCX115EU<br>~~PT~~<br>~~P~~<br>~~p~~||0.5<br>~~a~~<br>~~a~~|<br>~~a~~<br>~~a~~<br>~~a~~||||
||DCX124EU<br>~~P~~<br>~~p~~<br>~~|~~|Vl(ON)|<br>~~a~~<br>~~|~~|1.9<br>~~a~~<br>~~a~~<br>~~a~~|3.0||VO= 0.3V,IO= 5mA<br>~~Po~~<br>~~Po~~|
||DCX144EU<br>~~p~~<br>~~|~~<br>~~Pp~~|||1.9<br>~~a~~<br>~~a~~<br>~~a~~|3.0||VO= 0.3V,IO= 2mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX114YU<br>~~|~~<br>~~Pp~~<br>~~Pp~~|||<br>~~a~~<br>~~a~~<br>~~a~~|1.4||VO= 0.3V,IO= 1mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX123JU<br>~~Pp~~<br>~~Pp~~<br>~~P|~~|||<br>~~a~~<br>~~a~~<br>~~a~~|1.1||VO= 0.3V,IO= 5mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX114EU<br>~~Pp~~<br>~~P|~~<br>~~|~~|||1.9<br>~~a~~<br>~~a~~<br>~~a~~|3.0||VO= 0.3V,IO= 10mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX143EU<br>~~P|~~<br>~~|~~<br>~~P|~~|||1.99<br>~~a~~<br>~~a~~<br>~~||~~|3.0<br>~~|~~||VO= 0.3V,IO= 20mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX143ZU<br>~~|~~<br>~~P|~~<br>~~Pp~~|||<br>~~a~~<br>~~||~~<br>~~a~~|1.3<br>~~|~~||VO= 0.3V,IO= 5mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX115EU<br>~~P|~~<br>~~Pp~~<br>~~P|~~|||<br>~~| |~~<br>~~a~~|3<br>~~| ~~||VO= 0.3V,IO= 1mA<br> ~~Po~~<br>~~Po~~<br>~~Po~~|
|Output Voltage<br>~~Pp~~<br>~~P|~~<br>~~|~~<br>~~P|~~<br>~~Pp~~<br>~~P|~~<br>~~|~~<br>~~P|~~<br>~~Pp~~|DCX124EU<br>~~Pp~~<br>~~P|~~<br>~~|~~|VO(ON)||0.1<br>~~a~~|0.3|V|IO/Il= 10mA / 0.5mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX144EU<br>~~P|~~<br>~~|~~<br>~~P|~~||||||IO/Il= 10mA / 0.5mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX114YU<br>~~|~~<br>~~P|~~||||||IO/Il= 5mA / 0.25mA<br>~~Po~~<br>~~Po~~|
||DCX123JU<br>~~P|~~<br>~~Pp~~<br>~~P|~~||||||IO/Il= 5mA / 0.25mA<br>~~Po~~<br>~~PO~~<br>~~Po~~|
||DCX114EU<br>~~Pp~~<br>~~P|~~<br>~~|~~||||||IO/Il= 10mA / 0.5mA<br>~~PO~~<br>~~Po~~<br>~~Po~~|
||DCX143EU<br>~~P|~~<br>~~|~~<br>~~P|~~||||||IO/Il= 10mA / 0.5mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX143ZU<br>~~|~~<br>~~P|~~||||||IO/Il= 5mA / 0.25mA<br>~~Po~~<br>~~Po~~|
||DCX115EU<br>~~P|~~<br>~~Pp~~||||||IO/Il= 10mA / 0.5mA<br>~~Po~~<br>~~Po~~|
|Input Current<br>~~Pp~~|DCX124EU<br>~~Pp~~|Il|||0.36|mA|VI= 5V<br>~~Po~~|
||DCX144EU||||0.18|||
||DCX114YU||||0.88|||
||DCX123JU||||3.6|||
||DCX114EU||||0.88|||
||DCX143EU||||0.88|||
||DCX143ZU||||1.8|||
||DCX115EU||||0.15|||
|Output Current<br>~~pf~~||IO(OFF)<br>~~pf~~|<br>~~pf~~|<br>~~pf~~|0.5<br>~~pf~~|μA<br>~~pf~~|VCC= 50V,VI= 0V<br>~~pf~~|
|DC Current Gain<br>~~pf~~<br>~~re~~<br>~~|~~<br>~~a~~<br>~~P|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~|DCX124EU<br>DCX124EUQ<br>~~pf~~<br>~~re~~<br>~~|~~|O(OFF)<br>Gl<br>~~pf~~<br>~~|~~<br>~~a~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~|56<br>60<br>~~pf~~<br>~~|~~|<br>~~pf~~|<br>~~pf~~|<br>~~pf~~|VO= 5V, IO= 5mA<br>VO= 5V,IO= 5mA<br>~~pf~~<br>~~|~~<br>~~Po~~|
||DCX144EU<br>~~re~~<br>~~|~~||68<br>~~|~~||||VO= 5V,IO= 5mA<br>~~|~~<br>~~Po~~|
||DCX114YU<br>DCX114YUQ<br>~~|~~<br>~~a~~<br>~~P|~~||68<br>80<br>~~|~~<br>~~ee~~<br>~~|~~||||VO= 5V, IO= 10mA<br>VO= 5V,IO= 10mA<br>~~Po~~<br>~~a~~<br>~~Po~~|
||DCX123JU<br>~~a~~<br>~~P|~~<br>~~|~~||80<br>~~ee~~<br>~~|~~<br>~~|~~||||VO= 5V,IO= 10mA<br>~~a~~<br>~~Po~~<br>~~Po~~|
||DCX114EU<br>~~P|~~<br>~~|~~<br>~~|~~||30<br>~~|~~<br>~~|~~<br>~~|~~||||VO= 5V,IO= 5mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX143EU<br>~~|~~<br>~~|~~<br>~~|~~||50<br>~~|~~<br>~~|~~<br>~~|~~||||VO= 5V,IO= 10mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX143ZU<br>~~|~~<br>~~|~~<br>~~|~~||80<br>~~|~~<br>~~|~~<br>~~|~~||||VO= 5V,IO= 10mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX115EU<br>~~|~~<br>~~|~~||82<br>~~|~~<br>~~|~~||||VO= 5V,IO= 5mA<br>~~Po~~<br>~~Po~~|
|Input Resistor(R1)Tolerance<br>~~|~~<br>~~pf~~||R1<br>~~|~~<br>~~pf~~|-30<br>~~|~~<br>~~pf~~|<br>~~pf~~|+30<br>~~pf~~|%<br>~~pf~~|<br>~~Po~~<br>~~pf~~|
|Resistance Ratio Tolerance<br>~~pf~~||R2/R1<br>~~pf~~|-20<br>~~pf~~|<br>~~pf~~|+20<br>~~pf~~<br>~~CO~~|<br>~~pf~~<br>~~(OG~~|<br>~~pf~~<br>~~(OG~~|
|Gain-Bandwidth Product<br>~~DS~~||fT<br>~~DS~~|<br>~~DS~~|250<br>~~DS~~|<br>~~DS~~<br>~~CO~~|MHz<br>~~DS~~<br>~~(OG~~|VCE= 10V,IE= 5mA,f = 100MHz<br>~~DS~~<br>~~(OG~~|



4 of 13 **www.diodes.com** 

DCX(XXXX)U Document number: DS30347 Rev. 19 - 2 

May 2018 © Diodes Incorporated 

**DCX(XXXX)U** 

## **Electrical Characteristics PNP Section** (@TA = +25°C, unless otherwise specified.) 

|**Characteristic**|**Characteristic**|**Symbol**|**Min**|**Typ**|**Max**|**Unit**|**Test Condition**|
|---|---|---|---|---|---|---|---|
|**R1 Only (DCX143TU & DCX114TU)**<br>~~a~~<br>~~Ge~~<br>~~GCOS(OGCO~~||||||||
|Collector-BaseBreakdown Voltage<br>~~a~~||BVCBO<br>~~Ge~~|-50<br>~~GCOS~~|<br>~~GCOS~~<br>~~CO~~|<br>~~(OG~~<br>~~CO~~|V<br>~~(OG~~<br>~~GO (~~|IC= -50μA<br>~~CO~~<br>~~(~~|
|Collector-Emitter Breakdown Voltage<br>~~a~~<br>~~GG~~||BVCEO<br>~~Ge~~<br>~~GG~~|-50<br>~~GCOS~~<br>~~GG~~|<br>~~GCOS~~<br>~~GG~~<br>~~CO~~|<br>~~(OG~~<br>~~GG~~<br>~~CO~~|V<br>~~(OG ~~<br>~~GG~~<br>~~GO (~~|IC= -1mA<br> ~~CO~~<br>~~GG~~<br>~~(~~|
|Emitter-Base Breakdown Voltage<br>~~pf~~||BVEBO<br>~~pf~~|-5<br>~~pf~~|<br>~~CO~~<br>~~pf~~|<br>~~CO~~<br>~~pf~~|V<br>~~GO (~~<br>~~pf~~|IE= -50μA<br>~~(~~<br>~~pf~~|
|CollectorCutoffCurrent<br>~~pO~~<br>~~a~~||ICBO<br>~~pO~~<br>~~GO~~|<br>~~pO~~<br>~~GO~~|<br>~~pO~~<br>~~CO~~|-0.5<br>~~pO~~<br>~~(OR~~|μA<br>~~pO~~<br>~~(OC~~|VCB= -50V<br>~~pO~~<br>~~(OC~~|
|Emitter Cutoff Current<br>~~a~~||IEBO<br>~~GO~~<br>~~ee~~|<br>~~GO~~|<br>~~CO~~|-0.5<br>~~(OR~~|μA<br>~~(OC~~|VEB= -4V<br>~~(OC~~|
|Collector-Emitter Saturation Voltage<br>~~a~~<br>~~ee~~||VCE(SAT)<br>~~GO~~<br>~~ee~~<br>~~ee~~|<br>~~GO~~<br>~~ee~~|<br>~~CO~~<br>~~ee~~|-0.3<br>~~(OR ~~<br>~~ee~~|V<br> ~~(OC~~<br>~~ee~~|IC/IB= 2.5mA / 0.25mA       DCX143TU<br>IC/IB= 1mA / 0.1mA            DCX114TU<br>~~(OC~~<br>~~ee~~|
|DC CurrentTransfer Ratio<br>~~pO~~<br>~~a~~||hFE<br>~~ee~~<br>~~pO~~<br>~~GO~~|100<br>~~pO~~<br>~~GO~~|250<br>~~pO~~<br>~~CO~~|600<br>~~pO~~<br>~~(OR~~|<br>~~pO~~<br>~~(OC~~|IC= -1mA,VCE= -5V<br>~~pO~~<br>~~(OC~~|
|Input Resistor(R1)Tolerance<br>~~a~~||R1<br>~~GO~~|-30<br>~~GO~~|<br>~~CO~~|+30<br>~~(OR~~|%<br>~~(OC~~|<br>~~(OC~~|
|Gain-Bandwidth Product<br>~~a~~<br>~~pf~~||fT<br>~~GO~~<br>~~pf~~|<br>~~GO~~<br>~~pf~~|250<br>~~CO~~<br>~~pf~~|<br>~~(OR ~~<br>~~pf~~|MHz<br> ~~(OC~~<br>~~pf~~|VCE= -10V,IE= 5mA,f = 100MHz<br>~~(OC~~<br>~~pf~~|
|**R1/R2 Only**<br>~~pf~~||||||||
|Input Voltage<br>~~pF~~<br>~~f|~~<br>~~p~~<br>~~Pp~~<br>~~p~~<br>~~|~~<br>~~|~~<br>~~Pp~~<br>~~P|~~<br>~~|~~<br>~~|~~<br>~~P|~~<br>~~|~~|DCX124EU|Vl(OFF)<br>~~f|~~<br>~~p~~<br>~~|~~|-0.5|-1.1|<br>~~f|~~<br>~~|~~|V<br>~~f|~~<br>~~|~~<br>|VCC= -5V, IO= -100μA<br>~~f|~~<br>~~|~~|
||DCX144EU<br>~~pF~~||-0.5<br>~~ee~~|-1.1<br>~~ee~~||||
||DCX114YU<br>~~pF~~||-0.3<br>~~ee~~|<br>~~ee~~||||
||DCX123JU<br>~~pF~~<br>~~f|~~||-0.5<br>~~ee~~<br>~~f|~~|<br>~~ee~~<br>~~f|~~||||
||DCX114EU<br>~~f|~~||-0.5<br>~~f|~~<br>~~|~~|-1.1<br>~~f|~~<br>~~|~~||||
||DCX143EU<br>~~f|~~<br>~~p~~||-0.5<br>~~f|~~<br>~~p~~<br>~~|~~|-1.16<br>~~f|~~<br>||||
||DCX143ZU<br>~~p~~<br>~~Pp~~||-0.5<br>~~p~~<br>~~|~~~~**|**~~|<br>~~**|**~~||||
||DCX115EU<br>~~p~~<br>~~Pp~~<br>~~p~~||-0.5<br>~~p~~<br>~~|~~~~**|**~~<br>~~TT~~|<br>~~**|**~~<br>~~TT~~||||
||DCX124EU<br>~~Pp~~<br>~~p~~<br>~~|~~|Vl(ON)<br>|<br>~~**|**~~<br>~~TT~~<br>~~|~~|-1.9<br>~~**|**~~<br>~~TT~~<br>~~a~~|-3.0||VO= -0.3V,IO= -5mA<br>~~Po~~|
||DCX144EU<br>~~p~~<br>~~|~~<br>~~|~~|||-1.9<br>~~TT~~<br>~~a~~<br>~~a~~|-3.0||VO= -0.3V,IO= -2mA<br>~~Po~~<br>~~Po~~|
||DCX114YU<br>~~|~~<br>~~|~~<br>~~Pp~~|||<br>~~a~~<br>~~a~~<br>~~a~~|-1.4||VO= -0.3V,IO= -1mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX123JU<br>~~|~~<br>~~Pp~~<br>~~P|~~|||<br>~~a~~<br>~~a~~<br>~~a~~|-1.1||VO= -0.3V,IO= -5mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX114EU<br>~~Pp~~<br>~~P|~~<br>~~|~~|||-1.9<br>~~a~~<br>~~a~~<br>~~a~~|-3.0||VO= -0.3V,IO= -10mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX143EU<br>~~P|~~<br>~~|~~<br>~~|~~<br>~~P|~~|||-2.5 <br>~~a~~<br>~~a~~<br>~~a~~<br>~~||~~|-3.0 <br>~~|~~||VO= -0.3V,IO= -20mA<br>~~Po~~<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX143ZU<br>~~|~~<br>~~|~~<br>~~P|~~|||<br>~~a~~<br>~~a~~<br>~~||~~|-1.3<br>~~|~~||VO= -0.3V,IO= -5mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX115EU<br>~~|~~<br>~~P|~~<br>~~|~~|||<br>~~a~~<br>~~||~~<br>~~a~~|-3<br>~~|~~||VO= -0.3V,IO= -1mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
|Output Voltage<br>~~P|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~Pp~~<br>~~f~~|DCX124EU<br>~~P|~~<br>~~|~~<br>~~|~~|VO(ON)|<br>~~|~~|-0.1<br>~~| |~~<br>~~a~~|-0.3<br>~~| ~~|V<br>|IO/Il= -10mA / -0.5mA<br> ~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX144EU<br>~~|~~<br>~~|~~<br>~~|~~||||||IO/Il= -10mA / -0.5mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX114YU<br>~~|~~<br>~~|~~<br>~~Pp~~||||||IO/Il= -5mA / -0.25mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX123JU<br>~~|~~<br>~~Pp~~||||||IO/Il= -5mA / -0.25mA<br>~~Po~~<br>~~Po~~<br>~~PO~~|
||DCX114EU<br>~~Pp~~<br>~~f~~||||||IO/Il= -10mA / -0.5mA<br>~~Po~~<br>~~PO~~<br>~~Po~~|
||DCX143EU<br>~~f~~||||||IO/Il= -10mA / -0.5mA<br>~~Po~~|
||DCX143ZU<br>~~f~~||||||IO/Il= -5mA / -0.25mA<br>~~Po~~|
||DCX115EU||||||IO/Il= -10mA / -0.5mA|
|Input Current<br>~~a~~|DCX124EU|Il|||-0.36|mA<br>~~(OO~~|VI= -5V<br>~~(OO~~|
||DCX144EU||||-0.18|||
||DCX114YU||||-0.88|||
||DCX123JU||||-3.6|||
||DCX114EU||||-0.88|||
||DCX143EU||||-0.88|||
||DCX143ZU||||-1.8|||
||DCX115EU<br>~~a~~||||-0.15<br>GO~~(OO~~|||
|Output Current<br>~~GGG~~<br>~~a~~||IO(OFF)<br>~~GGG~~|<br>~~GGG~~|<br>~~GGG~~|-0.5<br>~~GGG~~<br>GO~~(OO~~|μA<br>~~GGG~~<br>~~(OO~~|VCC= 50V,VI= 0V<br>~~GGG~~<br>~~(OO~~|
|DC Current Gain<br>~~a~~<br>~~P|~~<br>~~a~~<br>~~|~~<br>~~P|~~<br>~~P|~~<br>~~|~~<br>~~|~~|DCX124EU<br>DCX124EUQ<br>~~a~~<br>~~P|~~<br>~~a~~|O(OFF)<br>Gl<br>~~|~~<br>~~|~~|56<br>60<br>~~ee~~<br>~~||~~|<br>~~||~~<br>~~||~~|<br>GO~~(OO~~|<br>~~(OO~~|VO= -5V, IO= -5mA<br>VO= -5V,IO= -5mA<br>~~(OO~~<br>~~a~~<br>~~Po~~|
||DCX144EU<br>~~a~~<br>~~P|~~<br>~~a~~||68<br>~~ee~~<br>~~||~~||||VO= -5V,IO= -5mA<br>~~(OO~~<br>~~a~~<br>~~Po~~|
||DCX114YU<br>DCX114YUQ<br>~~P|~~<br>~~a~~<br>~~|~~<br>~~P|~~||68<br>80<br>~~ee~~<br>~~||~~<br>~~eee~~<br>~~|~~||||VO= -5V, IO= -10mA<br>VO= -5V,IO= -10mA<br>~~a~~<br>~~Po~~<br>~~|~~<br>~~Po~~|
||DCX123JU<br>~~a~~<br>~~|~~<br>~~P|~~<br>~~P|~~||80<br>~~||~~<br>~~eee~~<br>~~|~~<br>~~|~~||||VO= -5V,IO= -10mA<br>~~Po~~<br>~~|~~<br>~~Po~~<br>~~Po~~|
||DCX114EU<br>~~|~~<br>~~P|~~<br>~~P|~~<br>~~|~~||30<br>~~eee~~<br>~~|~~<br>~~|~~<br>~~||~~||||VO= -5V,IO= -5mA<br>~~|~~<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX143EU<br>~~P|~~<br>~~P|~~<br>~~|~~||40<br>~~|~~<br>~~|~~<br>~~||~~||||VO= -5V,IO= -10mA<br>~~Po~~<br>~~Po~~<br>~~Po~~|
||DCX143ZU<br>~~P|~~<br>~~|~~<br>~~|~~||80<br>~~|~~<br>~~||~~<br>~~**|**~~||||VO= -5V,IO= -10mA<br>~~Po~~<br>~~Po~~<br>~~**Po**~~|
||DCX115EU<br>~~|~~<br>~~|~~||82<br>~~||~~<br>~~**|**~~||||VO= -5V,IO= -5mA<br>~~Po~~<br>~~**Po**~~|
|Input Resistor(R1)Tolerance<br>~~|~~<br>~~pf~~||R1<br>~~pf~~|-30<br>~~**|**~~<br>~~pf~~|<br>~~pf~~<br>~~CO~~|+30<br>~~pf~~<br>~~GO~~|%<br>~~pf~~<br>~~(CO~~|<br>~~**Po**~~<br>~~pf~~<br>~~(CO~~|
|Resistance Ratio Tolerance<br>~~GG~~||R2/R1<br>~~GG~~<br>~~GD~~|-20<br>~~GG~~<br>~~GD~~|<br>~~GG~~<br>~~CO~~<br>~~QO~~|+20<br>~~GG~~<br>~~GO~~<br>~~QO~~|%<br>~~GG~~<br>~~(CO~~<br>~~OO~~|<br>~~GG~~<br>~~(CO~~<br>~~OO~~|
|Gain-Bandwidth Product<br>~~es~~||fT<br>~~es~~<br>~~GD~~|<br>~~es~~<br>~~GD~~|250<br>~~CO~~<br>~~es~~<br>~~QO~~|<br>~~GO ~~<br>~~es~~<br>~~QO~~|MHz<br> ~~(CO~~<br>~~es~~<br>~~OO~~|VCE= -10V,IE= -5mA,f = 100MHz<br>~~(CO~~<br>~~es~~<br>~~OO~~|



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## **Typical Curves – Total Device** 

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250<br>200<br>150<br>EXGHEEE<br>100 LINE LE<br>50 EL EAL LS<br>0<br>0 ewer 25 50 75 100 \ [TN] 125 150 175<br>TA, AMBIENT TEMPERATURE (°C)<br>Fig. 1 Power Derating Curve<br>ical Curves – DCX123JU  PNP Section (@TA = +25°C, unless otherwise specified.)<br>1 1,000<br>IC/IB = 10<br>esa | ESE Et<br>75°C<br>0.1<br>-25°C<br>25°C<br>= a 100 ca eall lll<br>re ee ee ee e e Zr<br>0.01 Poof f l oe<br>pf f f a<br>——— a a ff fT<br>a ee el<br>0.001 a 10 en ell<br>0 10 20 30 40 50 1 10 100<br>IC, COLLECTOR CURRENT (mA) IC, COLLECTOR CURRENT (mA)<br>Fig. 2  Typical VCE(SAT) vs. IC Fig. 3  Typical DC Current Gain<br>12 100<br>I E  = 0mA TA = 75 ℃癈<br>EEEEELEET f = 1MHz = —— Se<br>10<br>EELPEE EEE 10 fateSS<br>eS ee<br>8 HEE | |SS SS (|<br>LEER 1 t t<br>6 WT pene |<br>NEEEEEELEE TT] =<br>4 NTTETE 0.1 eea<br>PN ELLE 5aSSSSSS<br>0.01<br>2<br>MSUTTREREERECorre RET =SSS a S=S==<br>0 HEEEEEELEEELEEE LEE 0.001 aee<br>0 5 10 15 20 25 30 0 1 2 3 4 5 6 7 8 9 10<br>VR, REVERSE BIAS VOLTAGE (V) VIN, INPUT VOLTAGE (V)<br>Fig. 4  Typical Output Capacitance Fig. 5  Typical Collector Current vs. Input Voltage<br>, COLLECTOR-EMITTER<br>SATURATION  VOLTAGE (V)<br>V<br>CE(SAT)<br>OB<br>, CAPACITANCE (pF)<br>C<br>, POWER DISSIPATION (mW)<br>P<br>D<br>, DC CURRENT GAIN<br>FE<br>h<br>, COLLECTOR CURRENT (mA)<br>IC<br>**----- End of picture text -----**<br>


## **Typical Curves – DCX123JU** 

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## **Typical Curves – DCX123JU PNP Section** (Cont.) 

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10<br>a a<br>Lfe) V 5=02v——_}+ | 7<br>el ee ana e<br>1<br>o t | |<br>a es es |<br>es |<br>f \ {|f T<br>—————<br>0.1 Tot<br>0 10 20 30 40 50<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 6  Typical Input Voltage vs. Collector Current<br>IN<br>, INPUT VOLTAGE (V)<br>V<br>**----- End of picture text -----**<br>


## **Typical Curves – DCX123JU NPN Section** (@TA = +25°C, unless otherwise specified.) 

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1 1,000<br>IC/IB = 10 VCE = 10V<br>TA = 75°C<br>ye Sa ieee<br>0.1 a TA = 75°C oe |<br>ee — — TA = -25°C [<br>SSre = TA = 25° ee C e 100 ao 7 s eal<br>— ——— S LL |<br>0.01 ee Jf ff ZA rf [ |i tit ft ft eT ETT<br>—os TtTR TTT<br>0.001 ee a 10 Se a lll ll<br>0 10 20 30 40 50 1 10 100<br>IC, COLLECTOR CURRENT (mA) IC, COLLECTOR CURRENT (mA)<br>Fig. 7  Typical VCE(SAT) vs. IC Fig. 8  Typical DC Current Gain<br>4 100<br>IE = 0mA TA = 75 癈℃ VO = 5V<br>LTTTTEEELLTTL EET f = 1MHz | Sf- ===<br>TA = 25 ℃癈<br>10 =<br>3 TEETER =<br>ELE ELT 1 O TA = -25 ℃癈 l<br>2 SNUHEUAAAAANVVVGSGQRIAAAAIVE 7<br>\ e e<br>0.1<br>NOEL a<br>1 PTT]Pl | i|| ne a<br>0.01<br>TATE tt pe e<br>0 INTO AAA 0.001 ===as a a a<br>0 5 10 15 20 25 30 0 1 2 3 4 5 6 7 8 9 10<br>VR, REVERSE BIAS VOLTAGE (V) VIN, INPUT VOLTAGE (V)<br>Fig. 9  Typical Output Capacitance Fig. 10  Typical Collector Current vs. Input Voltage<br>OB<br>, CAPACITANCE (pF)<br>C<br>, COLLECTOR CURRENT (mA)<br>IC<br>CE(SAT)<br>, COLLECTOR-EMITTER<br>SATURATION VOLTAGE (V)<br>V<br>FE<br>, DC CURRENT GAIN<br>h<br>**----- End of picture text -----**<br>


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## **Typical Curves – DCX123JU NPN Section** (Cont.) 

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10 a es ee ee<br>—ee < ——<$_——eee e e —e<br>1 eT>A<br>——————— —<br>pa \<br>ewea<br>0.1 PT<br>0 10 20 30 40 50<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 11  Typical Input Voltage vs. Collector Current<br>, INPUT VOLTAGE (V)<br>IN<br>V<br>**----- End of picture text -----**<br>


**Typical Curves – DCX143EU PNP Section** (@TA = +25°C, unless otherwise specified.) 

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v e HAT Ib = 3.5mA Ib = 4mA I b TT  = 4.5mA<br>Ib = 3mA<br>eHHTTTE Ceti<br>0 0 8 pe<br>aor YS<br>0 0 0 s YA Ib = 1mA<br>008 Po Ib = 0.5mA<br>Yo<br>Ib = 1.5mA<br>Ib = 2mA<br>oso m) Y I b  = 2.5mA e<br>s y (eau pneeener anne<br>A MTOMEGEETEGCBROta<br>4) 0 0 . 5 4 1.5 2<br>VCE, COLLECTOR EMITTER VOLTAGE (V)<br>Fig. 12 Typical VCE vs. IC<br>IC/IB = 10<br>————————<br>-—- +} J<br>esee ee ee<br>0.1 —aee eeeeSEE [a] ee |<br>——_——<br>» ||)<br>0 10 20 30 40 50<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 14 Typical VCE(SAT) vs. IC<br>, COLLECTOR-EMITTER<br>SATURATION VOLTAGE (V)<br>CE(SAT)<br>V<br>, COLLECTOR CURRENT (A)<br>IC<br>**----- End of picture text -----**<br>


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ao {ilee AYN<br>UNE UIA<br>ee ETN<br>20 WY \<br>co HUME<br>RD)sce<br>ne NU crcl<br>ome0  eaeofl<br>0.1 1 10 aM 100<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 13 Typical DC Current Gain<br>OE<br>10 HI ETI<br>a<br>a<br>Aa<br>oT ETE<br>TT<br>ST<br>0.1 1 10<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 15 Typical VBE vs. IC<br>FE<br>, DC CURRENT GAIN<br>h<br>, BASE-EMITTER VOLTAGE (V)<br>BE<br>V<br>**----- End of picture text -----**<br>


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Typical Curves – DCX143EU PNP Section  (Cont.)<br>**----- End of picture text -----**<br>


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;<br>d<br>S 0 . 1 SS 1  aoe 10<br>IC, OUTPUT CURRENT (mA)<br>Fig. 17 Typical VI(ON) vs. IC<br>, INPUT VOLTAGE (V)<br>I(ON)<br>V<br>**----- End of picture text -----**<br>


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a<br>SHH<br>=r Cin<br>Se<br>a Acace|<br>a ot LPT!<br>0 .1 1 10 |<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 16 Typical VBE(SAT) vs. IC<br>ical Curves – DCX143EU NPN Section<br>r a e ELLEETT<br>0 . 12 | ° ae ese<br>0 . 11 a ere ee<br>a ALS<br>w a feo<br>00co 8r Pecoe<br>o o o ITPe<br>00 6 ATLL<br>0 OLE0 d fTLLLzm CLE<br>o o t (PER<br>< 4) (MOADR<br>0 02 04 0 60 8 1 1214 1618<br>VCE, COLLECTOR EMITTER VOLTAGE (V)<br>Fig. 18 Typical VCE vs. IC<br>SS<br>en<br>— a a<br>eee<br>Oe<br>eeeKe ee<br>a ee ee ee<br>eH Tee<br>co)<br>—————<br>—a a a<br>ee ee ee ee<br>ool 0 | 10 | 20 | 30 | 40<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 20 Typical VCE(SAT) vs. IC<br>, COLLECTOR-EMITTER<br>SATURATION VOLTAGE (V)<br>CE(SAT)<br>V<br>BE(SAT)<br>, BASE-EMITTER<br>V<br>SATURATION VOLTAGE (V)<br>C<br>, COLLECTOR CURRENT (A)<br>I<br>**----- End of picture text -----**<br>


## **Typical Curves – DCX143EU NPN Section** (@TA = +25°C, unless otherwise specified.) 

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[;<br>iso nese A)<br>| |II Hf | \<br>‘oo AAWN<br>W/\\\<br>«0 Wyyyi/ |<br>Bb<br>a aeZo<br>0 . 1 1 10 100<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 19 Typical DC Current Gain<br>‘ 1<br>9 !<br>Voge = 5V1<br>COM<br>a<br>|<br>5<br>4 a<br>il<br>3 eA<br>ab ahve A aieee tit<br>a<br>of0.1 —— Tot el 1 | |The 10 ve<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 21 Typical VBE vs. IC<br>, DC CURRENT GAIN<br>FE<br>h<br>BE<br>, BASE-EMITTER VOLTAGE (V)<br>V<br>**----- End of picture text -----**<br>


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## **Typical Curves – DCX143EU NPN Section** (Cont.) 

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; VV “s<br>i f i HA<br>eM 2 TU Lat ios ea<br>UOT MRIKIm dai en<br>“Con rg SCAN<br>oT ZN A<br>NY JAA. lll 25 Ty = -B5°C ria4<br>3 AT<br>O 0 .1 e 1 | 10 100 SSS 0 . 1 1  SS 10<br>IC, COLLECTOR CURRENT (mA) IC, OUTPUT CURRENT (mA)<br>Fig. 22 Typical VBE(SAT) vs. IC Fig. 23 Typical VI(ON) vs. IC<br>, INPUT VOLTAGE (V)<br>I(ON)<br>V<br>, BASE-EMITTER<br>BE(SAT)<br>V<br>SATURATION VOLTAGE (V)<br>**----- End of picture text -----**<br>


## **Typical Curves – DCX114TU PNP Section** (@TA = +25°C, unless otherwise specified.) 

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1 —_———————————— IC/IB = 10 1,000 et<br>po ———— ye——a re EE A tea =<br>a —<br>0.1 T r TA = 75°C 100 r ie Cort<br>——— == ee e —— a<br>S i TA = -25°C ee<br>—— S S H<br>TA = 25°C a ee<br>ee ee ee e a DB 0<br>0.01 ——E—— 10 ———<br>———————a a po SSH eeeHt<br>a a a ee<br>0.001 1<br>0 10 20 30 40 50 1 10 100<br>IC, COLLECTOR CURRENT (mA) IC, COLLECTOR CURRENT (mA)<br>Fig. 24 Typical VCE(SAT) vs. IC Fig. 25 Typical DC Current Gain<br>4 100<br>IE = 0mA<br>Tae f = 1MHz SS e e<br>10<br>3 PECTIC { |<br>TA = -25 ℃癈<br>un | ar s<br>TET \ 1 f| f f<br>ATT \ | E e<br>2<br>ANETTA 0.1 {_——<br>1 rene Jit | a a<br>ATP TTT ——————<br>0.01<br>ATTA -[===—— ===<br>a<br>0 LUTEAL 0.001 ———<br>0 5 10 15 20 25 30 0 Lily 1 2 | 3 | 4 | 5 | {| 6 7 | | 8 ft 9 10<br>VR, REVERSE BIAS VOLTAGE (V) VIN, INPUT VOLTAGE (V)<br>Fig. 26 Typical Output Capacitance Fig. 27 Typical Collector Current vs. Input Voltage<br>, COLLECTOR CURRENT (mA)<br>IC<br>, CAPACITANCE (pF)<br>OB<br>C<br>, COLLECTOR-EMITTER<br>SATURATION VOLTAGE (V)<br>CE(SAT)<br>V<br>FE<br>, DC CURRENT GAIN<br>h<br>**----- End of picture text -----**<br>


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## **Typical Curves – DCX114TU PNP Section** (Cont.) 

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10 eea ”<br>rs<br>———><br>ae<br>a e<br>a ae<br>1 FA eeSe<br>a |<br>a a<br>rsee esa<br>ee [ee] eeeeee<br>0.1<br>0 10 20 30 40 50<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 28 Typical Input Voltage vs. Collector Current<br>ical Curves – DCX114TU NPN Section (@TA = +25°C, unless otherwise specified.)  A = +25°C, unless otherwise specified.)   = +25°C, unless otherwise specified.)<br>1 1,000<br>a IC/IB = 10 —— a ee<br>—————————— po eeyer IYee eet<br>a ee ee 8<br>ee aee ee ee SSEN<br>0.1 ———fpT T TA = 75°C ——————————_—————Le |— 100 —————alpeepee om :ee e<br>a —— TA = -25°C { | poe<br>— TA = 25°C a a ee ee |<br>0.01 10<br>a———a a ed e e e eel<br>a Qe po pT<br>a a ee ee |<br>0.001 1<br>0 10 20 30 40 50 1 10 100<br>IC, COLLECTOR CURRENT (mA) IC, COLLECTOR CURRENT (mA)<br>Fig. 29 Typical VCE(SAT) vs. IC Fig. 30 Typical DC Current Gain<br>4 100<br>TA = 75 ℃癈<br>IE = 0mA<br>HUA f = 1MHz e TA = 25 癈℃ e<br>10<br>WTP a a<br>3<br>TA =-25 ℃癈<br>WT ( a<br>1<br>AUT === e e<br>2<br>\ === —<br>INTE 0.1 | _—_—ee<br>1 PRTinane a eeunue TT | |We| 0 aa aa a ee<br>0.01<br>UCT) fesse<br>0 UTEP 0.001 We<br>0 5 10 15 20 25 30 0 [Mi 1 2 fT ot 3 fF 4 cP 5 6 EE 7 8 9 10<br>VR, REVERSE BIAS VOLTAGE (V) VIN, INPUT VOLTAGE (V)<br>Fig. 31 Typical Output Capacitance Fig. 32 Typical Collector Current vs. Input Voltage<br>, DC CURRENT GAIN<br>FE<br>h<br>, COLLECTOR CURRENT (mA)<br>IC<br>, INPUT VOLTAGE (V)<br>IN<br>V<br>, CAPACITANCE (pF)<br>OB<br>C<br>, COLLECTOR-EMITTER<br>SATURATION VOLTAGE (V)<br>CE(SAT)<br>V<br>**----- End of picture text -----**<br>


## **Typical Curves – DCX114TU NPN Section** (@TA = +25°C, unless otherwise specified.)  A = +25°C, unless otherwise specified.)   = +25°C, unless otherwise specified.) 

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## **Typical Curves – DCX114TU NPN Section** (Cont.) 

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10<br>a ae<br>1<br>=<br>0.1 aaa<br>0 10 20 30 40 50<br>IC, COLLECTOR CURRENT (mA)<br>Fig. 33 Typical Input Voltage vs. Collector Current<br>, INPUT VOLTAGE (V)<br>IN<br>V<br>**----- End of picture text -----**<br>


## **Package Outline Dimensions** 

Please see http://www.diodes.com/package-outlines.html for the latest version. 

**SOT363** 

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E E1 ee SOT363<br>Dim  Min  Max  Typ<br>A1  0.00  0.10  0.05<br>A2  0.90 1.00 0.95<br>Lo | b  0.1 -- 0 0.30 0.25<br>c  0.10 0.22  0.11<br>F<br>wk b | D  1.80 2.20 2.15<br>E  2.00 2.20 2.10<br>ee ee ee eeJ<br>E1  1.15 1.35 1.30<br>D<br>-—_+—__l_ e  0.650 BSC<br>F  0.40 0.45 0.425<br>L  0.25 0.40 0.30<br>rT T_T) a a 0° 8° --<br>A2<br>All Dimensions in mm<br>c a<br>AD A1 ——— e JA, L name<br>**----- End of picture text -----**<br>


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## **Suggested Pad Layout** 

Please see http://www.diodes.com/package-outlines.html for the latest version. 

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**----- Start of picture text -----**<br>
SOT363<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
C<br>Y1 Fo go, G<br>Y<br>bee X<br>**----- End of picture text -----**<br>


|**Dimensions**|**Value**<br>**(in mm)**|
|---|---|
|**C**|0.650|
|**G**|1.300|
|**X**|0.420|
|**Y**|0.600|
|**Y1**|2.500|



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## **LIFE SUPPORT** 

Diodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express written approval of the Chief Executive Officer of Diodes Incorporated. As used herein: 

A.   Life support devices or systems are devices or systems which: 

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Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or systems. 

Copyright © 2018, Diodes Incorporated 

**www.diodes.com** 

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