BSZ15DC02KDHXTMA1

**BSZ15DC02KD H** 

## **OptiMOS™2 + OptiMOS™-P 2 Small Signal Transistor** 

## **Features** 

- Complementary P + N channel 

- Enhancement mode 

- Super Logic level (2.5V rated) 

- Common drain 

- Avalanche rated 

## **Product Summary** 

|**OptiMOS™2 + OptiMOS™-P 2 Small Signal Transistor**|**OptiMOS™2 + OptiMOS™-P 2 Small Signal Transistor**|**OptiMOS™2 + OptiMOS™-P 2 Small Signal Transistor**|**OptiMOS™2 + OptiMOS™-P 2 Small Signal Transistor**|**OptiMOS™2 + OptiMOS™-P 2 Small Signal Transistor**|
|---|---|---|---|---|
|**Product Summary**|||||
||||||
|||**P**|**N**||
||||||
|_V_DS||-20|20|V|
||||||
|_R_DS(on),max|_V_GS=±4.5 V|150|55|mW|
||||||
||_V_GS=±2.5 V|310|95||
||||||
|_I_D||-3.2|5.1|A|



- 175 °C operating temperature 

- Qualified according to AEC Q101 

- 100% lead-free; RoHS compliant 

- Halogen-free according to IEC61246-21 

|(GHalogen-Free|(GHalogen-Free|(GHalogen-Free|||||
|---|---|---|---|---|---|---|
|Package||Package|Marking|Lead Free|Halogen Free|Packing|
||||||||
|PG-TSDSON-8|PG-TSDSON-8||15DC02KD|Yes|Yes|Non dry|
||||||||



**Maximum ratings,** at _T_ j=25 °C, unless otherwise specified[1)] 

|**Maximum ratings,**at_T_j=25 °C, unless otherwise specified=25 °C, unless otherwise specified|j=25 °C, unless otherwise specified=25 °C, unless otherwise specified|j=25 °C, unless otherwise specified=25 °C, unless otherwise specified[1)]||||
|---|---|---|---|---|---|
|**Parameter**|**Symbol **|**Conditions**|**Unit**<br>**Value**||**Unit**|
||||**P**|**N**||
|Continuous drain current|_I_D|_T_A=25 °C|-3.2|5.1<br>A|A|
|||_T_A=100 °C|-2.2|3.6||
|Pulsed drain current|_I_D,pulse|_T_A=25 °C|-13|20||
|Avalanche energy, single pulse|_E_AS|P:_I_D=-3.2 A,<br>N:_I_D=5.1 A,<br>_R_GS=25W|11|11<br>mJ|mJ|
|Gate source voltage|_V_GS||V<br>±12||V|
|Power dissipation|_P_tot<br>2)|_T_A=25 °C|W<br>2.5||W|
|Operating and storage temperature|_T_j,_T_stg||°C<br>-55 ... 175||°C|
|ESD class||JESD22-A114-HBM|0 (<250V)|||
|Soldering temperature|_T_solder||°C<br>260||°C|
|IEC climatic category; DIN IEC 68-1|||55/175/56|||



- 1) Remark: only one of both transistors active 

Rev 2.2 

page 1 

2014-08-28 

||Cinfineon|||||||
|---|---|---|---|---|---|---|---|
||Cinfineon||||||**BSZ15DC02KD H**|
|**Parameter**<br>**Symbol **<br>**Thermal characteristics**<br>~~ee~~||||**Conditions**|**Unit**<br>**min.**<br>**typ.**<br>**max.**<br>**Values**<br>~~ee~~|||
||Thermal resistance, junction -<br>case|P<br>N|_R_thJC|||-|K/W<br>-<br>8|
||Device on PCB||_R_thJA|6 cm2cooling area|cooling area2)|-|-<br>60<br>K/W|



**Electrical characteristics,** at _T_ j=25 °C, unless otherwise specified 

|**Static characteristics**||||||||
|---|---|---|---|---|---|---|---|
|Drain-source breakdown voltage|P<br>~~A~~|_V_(BR)DSS <br>~~A~~|_V_GS=0 V,_I_D=-250 µA<br>|-<br>~~ee ee~~<br>|-<br>~~ee~~<br>|-20<br>~~ee~~<br>|V|
||N<br>~~ee~~<br>~~A~~|~~ee~~<br>~~A~~|_V_GS=0 V,_I_D=250 µA<br>~~ee~~<br>|20<br>~~ee~~<br>~~ee ee~~<br>|-<br>~~ee~~<br>~~ee~~<br>|-<br>~~ee~~<br>~~ee~~<br>||
|Gate threshold voltage|P<br>~~A~~|_V_GS(th)<br>~~A~~|_V_DS=_V_GS,_I_D=-110 µA<br>|-1.4<br>~~ee ee~~<br>|-1.0<br>~~ee~~<br>|-0.7<br>~~ee~~<br>||
||N<br>~~A~~||_V_DS=_V_GS,_I_D=110 µA<br>|0.8<br>~~ee ee~~<br>|1.1<br>~~ee~~<br>|1.4<br>~~ee~~<br>||
|Zero gate voltage drain current|P<br>~~PoE~~|_I_DSS<br>~~PoE~~<br>~~Ep~~|_V_DS=-20 V,_V_GS=0 V,<br>_T_j=25 °C<br>~~PoE~~|-<br>~~PoE~~|-<br>~~PoE~~|-0.1<br>~~PoE~~|µA<br>~~ee~~|
||N<br>~~ie~~||_V_DS=20 V,_V_GS=0 V,<br>_T_j=25 °C|-|-|0.1||
||P<br>~~ee~~||_V_DS=-20 V,_V_GS=0 V,<br>_T_j=175 °C<br>|-<br>|-<br>|-50<br>||
||N<br>~~Ep~~||_V_DS=20 V,_V_GS=0 V,<br>_T_j=175 °C<br>~~Ep~~|-<br>~~Ep~~|-<br>~~Ep~~<br>~~ee~~|50<br>~~Ep~~<br>~~ee~~||
|Gate-source leakage current|P<br>~~oe~~|_I_GSS<br>~~oe~~<br>|_V_GS=±12 V,_V_DS=0 V<br>~~ee~~<br>|-<br>~~ee~~<br>~~ft~~<br>|-<br>~~ee~~<br>~~ee~~<br>~~ft~~<br>|±100<br>~~ee~~<br>~~ee~~<br>|nA<br>~~ee~~|
||N<br>~~oe~~<br>~~ee~~|||||||
|Drain-source on-state<br>resistance|P<br>~~Pit~~<br>~~ee~~|_R_DS(on)<br>~~Pit~~<br> <br>~~Ce~~<br>~~ee~~|_V_GS=-2.5 V,<br>_I_D=2.1 A<br>~~Pit~~<br>|-<br>~~Pit~~<br>~~ft~~<br>|164<br>~~ee~~<br>~~Pit~~<br>~~ft~~<br>|310<br>~~ee~~<br>~~Pit~~<br>|mW<br>~~ee~~|
||N<br>~~ee ~~||_V_GS=2.5 V,_I_D=1.9 A<br> ~~ee~~|-<br>~~ft~~<br>~~ee~~|63<br>~~ft~~<br>~~ee~~|95<br>~~ee~~||
||P<br>~~Ce~~||_V_GS=-4.5 V,_I_D=-3.2 A<br>~~Ce ~~|-<br> ~~ee~~|97<br>~~ee~~|150<br>~~ee~~||
||N<br>~~ee~~||_V_GS=4.5 V,_I_D=5.1 A<br>~~ee ~~|-<br> ~~ee~~|41<br>~~ee~~|55||
|Transconductance|P<br>~~ae~~|_g_fs<br>~~ae~~<br>~~Ett~~||_V_DS|>2|_I_D|_R_DS(on)max,<br>_I_D=-2.2 A<br>~~ae~~|3.4<br>~~ae~~|6.9<br>~~ae~~|-<br>~~ae~~|S|
||N<br>~~ae~~<br>~~Ett~~|||_V_DS|>2|_I_D|_R_DS(on)max,<br>_I_D=3.6 A<br>~~ae~~<br>~~Ett~~|5.5<br>~~ae~~<br>~~Ett tt~~|11<br>~~ae~~<br>~~tt~~|-<br>~~ae~~<br>~~tt~~||



Rev 2.2 

page 2 

2014-08-28 

|Cinfineon||||||
|---|---|---|---|---|---|
|Cinfineon||||**BSZ15DC02KD H**||
|||||||
|**Parameter**||**Symbol **|**Conditions**|**Values**|**Unit**|
|||||**min.**<br>**typ.**<br>**max.**||
|**Dynamic characteristics**||||||
|Input capacitance<br>Output capacitance<br>Reverse transfer capacitance<br>Turn-on delay time<br>Rise time<br>Turn-off delay time<br>Fall time|P<br>_C_iss<br>N<br>P<br>_C_oss<br>N<br>P<br>Crss<br>N<br>P<br>_t_d(on)<br>N<br>P<br>_t_r<br>N<br>P<br>_t_d(off)<br>N<br>P<br>_t_f<br>N<br>~~a~~<br>~~-~~<br>~~fp~~<br>~~4~~<br>~~a~~<br>~~yf~~<br>~~a~~<br>~~yf~~<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~<br>~~a~~||_V_GS=0 V,<br>P:_V_DS=-10 V,<br>N:_V_DS= 10 V,<br>_f_=1 MHz<br>P:_V_DD=-10 V,<br>_V_GS=-4.5 V,_R_G=6W,<br>_I_D=-3.2 A<br>N:_V_DD=10 V,<br>_V_GS=4.5 V,_R_G=6W,<br>_I_D=5.1 A|-<br>270<br>360<br>-<br>315<br>419<br>-<br>110<br>150<br>-<br>114<br>152<br>-<br>94<br>140<br>-<br>16<br>24<br>-<br>7.4<br>-<br>-<br>4.9<br>-<br>-<br>3.7<br>-<br>-<br>2.0<br>-<br>-<br>11.3<br>-<br>-<br>12.2<br>-<br>-<br>4.7<br>-<br>-<br>1.4<br>-<br>=-3.2 A<br>=10 V,<br>~~[| fo~~<br>~~T=~~<br>~~[| |~~<br>~~**[**| ft~~<br>~~|~~<br>~~|~~<br>~~**[**| ft~~<br>~~|~~<br>~~**|**~~<br>~~**[**|~~<br>~~|~~<br>~~|~~<br>~~[|~~<br>~~|~~<br>~~[|~~<br>~~|~~<br>~~[|~~<br>~~ft~~<br>~~[|~~<br>~~|~~|pF<br>ns|
|Gate Charge Characteristics||||||
|Gate to source charge|P|_Q_gs||-<br>-0.59<br>-0.8|nC|
|Gate to drain charge||_Q_gd|_V_DD=-10 V,<br>_I_D=-3.2 A,|-<br>-1.4<br>-1.8||
|Switching charge||_Q_g|_V_GS=0 to -4.5 V|-<br>-3.0<br>-4.5||
|Gate plateau voltage||_V_plateau||-<br>-2.2<br>-||
|Gate to source charge|N|_Q_gs||-<br>0.7<br>1.0||
|Gate to drain charge||_Q_gd|_V_DD=10 V,<br>_I_D=5.1 A,|-<br>0.4<br>-||
|Switching charge||_Q_g|_V_GS=0 to 4.5 V|2.1<br>2.8||
|Gate plateau voltage||_V_plateau||2.3||



Rev 2.2 

page 3 

2014-08-28 

|**Reverse Diode**||||||||
|---|---|---|---|---|---|---|---|
|Diode continuous forward current|P<br>~~een~~|_I_S<br>~~een~~|_T_C=25 °C<br>~~een~~<br>|-<br>~~een~~|-<br>~~een~~|-2.1<br>~~een~~|A|
||N<br>~~een~~|||~~een~~|~~een~~|2.3<br>~~een~~||
|Diode pulse current|P<br>~~een~~<br>~~4~~|_I_S,pulse<br>~~een~~<br>~~4~~<br>||-<br>~~een~~<br>~~**|**~~|-<br>~~een~~|-13<br>~~een~~||
||N<br>~~een~~<br>~~4~~<br>~~a~~|||~~een~~<br>~~**|**~~<br>|~~een~~<br>|20<br>~~een~~<br>||
|Diode forward voltage|P<br>~~eee~~|_V_SD<br>~~eee~~<br>~~Pfft~~|_V_GS=0 V,_I_F=3.2 A,<br>_T_j=25 °C<br>~~eee~~|-<br>~~eee~~|-0.98<br>~~eee~~|-1.2<br>~~eee~~|V|
||N<br>~~eee~~<br>~~Pfft~~||_V_GS=0 V,_I_F=5.1 A,<br>_T_j=25 °C<br>~~eee~~<br>~~Pfft~~|-<br>~~eee~~<br>~~Pfft~~|0.9<br>~~eee~~<br>~~Pfft~~|1.2<br>~~eee~~<br>~~Pfft~~||
|Reverse recovery time|P<br>~~F~~<br>~~yf~~|_t_rr<br>~~yf~~|_V_R=±10 V,_I_F=_I_S,<br>d_i_F/d_t_=100 A/µs|~~Et~~|12.2<br>~~Et~~|~~Et=~~|ns|
||N<br>~~F~~<br>~~yf~~|||-<br>~~Et~~|10.9<br>~~Et~~|-<br>~~Et=~~||
|Reverse recovery charge|P<br>~~yf~~|_Q_rr<br>~~yf~~||~~|~~|4.6<br><br>~~ft~~|~~=~~<br>~~ft~~|nC|
||N<br>~~yf~~<br>~~a~~|||-<br><br>~~|~~|3.4<br><br>~~|~~<br>~~ft~~|-<br>~~=~~<br>~~|~~<br>~~ft~~||



Rev 2.2 

page 4 

2014-08-28 

**BSZ15DC02KD H** 

## **1 Power dissipation (P)** 

_P_ tot=f( _T_ A) 

## **2 Power dissipation (N)** _P_ tot=f( _T_ A) 

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3 3<br>2.5 2.5<br>2 2<br>1.5 1.5<br>1 1<br>0.5 0.5<br>0 0<br>0 40 80 120 160 0 40 80 120 160<br>T A [°C]  T A [°C]<br> [W]   [W]<br>tot tot<br>P P<br>**----- End of picture text -----**<br>


## **3 Drain current (P)** 

_I_ D=f( _T_ A) 

parameter: _V_ GS≤-4.5 V 

## **4 Drain current (N)** 

_I_ D=f( _T_ A) parameter: _V_ GS≥4.5 V 

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3.5 |<br>3<br>2.5<br>[|=<br>2<br>1.5<br>1<br>0.5<br>0<br>0 40 80 120 160<br>T A [°C]<br> [A]<br>D<br>-I<br>**----- End of picture text -----**<br>


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5.5<br>5<br>4.5<br>4<br>3.5<br>3<br>2.5<br>2<br>1.5<br>1<br>0.5<br>0<br>0 40 80 120 160<br>T A [°C]<br> [A]<br>I D<br>**----- End of picture text -----**<br>


Rev 2.2 

2014-08-28 

page 5 

**BSZ15DC02KD H** 

## **5 Safe operating area (P)** 

_I_ D=f( _V_ DS); _T_ A=25 °C; _D_ =0 parameter: _t_ p 

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10 [2]<br>1 µs<br>10 [1 ]<br>10 µs<br>100 µs<br>1 ms<br>10 ms<br>10 [0 ]<br>DC<br>10 [-1]<br>10 [-2 ]<br>10 [-1 ] 10 [1 ] 10 [2 ]<br>-V DS [V]<br> [A]<br>D<br>-I<br>**----- End of picture text -----**<br>


## **6 Safe operating area (N)** 

_I_ D=f( _V_ DS); _T_ A=25 °C; _D_ =0 parameter: _t_ p 

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1 µs<br>10 µs<br>10 [1 ]<br>100 µs<br>1 ms<br>10 ms<br>10 [0 ]<br>DC<br>10 [-1 ]<br>10 [-2 ]<br>10 [-1 ] 10 [0 ] 10 [1 ] 10 [2 ]<br>V DS [V]<br> [A]<br>I D<br>**----- End of picture text -----**<br>


## **7 Max. transient thermal impedance (P)** 

_Z_ thJA=f( _t_ p) 

parameter: _D_ = _t_ p/ _T_ 

## **8 Max. transient thermal impedance (N)** 

_Z_ thJA=f( _t_ p) 

parameter: _D_ = _t_ p/ _T_ 

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10 [2 ] 10 [2 ]<br>0.5  0.5<br>0.2  0.2<br>10 [1 ] 10 [1 ]<br>0.1  0.1<br>0.05<br>0.05<br>0.02  0.02<br>0.01  0.01<br>single pulse  single pulse<br>10 [0 ] 10 [0 ]<br>10 [-5 ] 10 [-4 ] 10 [-3 ] 10 [-2 ] 10 [-1 ] 10 [0 ] 10 [1 ] 10 [2 ] 10 [-5 ] 10 [-4 ] 10 [-3 ] 10 [-2 ] 10 [-1 ] 10 [0 ] 10 [1 ] 10 [2 ]<br>t p [s]  t p [s]<br> [K/W]   [K/W]<br>thJA thJA<br>Z Z<br>**----- End of picture text -----**<br>


Rev 2.2 

page 6 

2014-08-28 

**BSZ15DC02KD H** 

## **9 Typ. output characteristics (P)** 

_I_ D=f( _V_ DS); _T_ j=25 °C 

parameter: _V_ GS 

## **10 Typ. output characteristics (N)** 

_I_ D=f( _V_ DS); _T_ j=25 °C 

parameter: _V_ GS 

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20 20<br>4.5 V<br>10 V<br>10 V<br>18 4.5 V  18 3.5 V<br>3 V<br>16 16<br>3.3 V<br>14 14<br>12 12<br>3 V<br>10 10<br>8 8 2.5 V<br>6 2.5 V  6<br>2.3 V<br>4 2.3 V  4<br>2 2 V  2 2 V<br>1.8 V  1.8 V<br>0 0<br>0 1 2 3 0 1 2 3<br>V DS [V]  VDS [V]<br>11 Typ. drain-source on resistance (P) 12 Typ. drain-source on resistance (N)<br>R  DS(on)=f( I  D);  T  j=25 °C R  DS(on)=f( I  D);  T  j=25 °C<br>parameter:  V  GS parameter:  V  GS<br>280 120<br>2 V<br>240 2.2 V<br>100<br>2.2 V<br>200<br>2.5 V  80<br>160 2.5 V<br>3 V<br>60<br>120 3.3 V  3 V<br>3.5 V<br>4.5 V  4.5 V<br>40<br>6 V<br>80 6 V<br>20<br>40<br>EE E<br>0 0<br>0 2 4 6 8 0 2 4 6 8<br>I D [A]  I D [A]<br>Rev 2.2 page 7 2014-08-28<br>se i<br> [A]  I D ID [A]<br>]<br>] W W<br> [m  [m<br>DS(on) DS(on)<br>R R<br>**----- End of picture text -----**<br>


Rev 2.2 

**BSZ15DC02KD H** 

## **13 Typ. transfer characteristics (P)** 

_I_ D=f( _V_ GS); | _V_ DS |>2 | ID| RDS(on)max parameter: _T_ j 

## **14 Typ. transfer characteristics (N)** 

_I_ D=f( _V_ GS); _|V DS  |>2 | I D | R DS(on)max_ parameter: _T_ j 

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6 6<br>5 5<br>4 4<br>3 3<br>2 /| 2 ||<br>175 °C<br>1 1 175 °C<br>25 °C  25 °C<br>0 7Z 0 y)<br>0 1 2 3 0 1 2 3<br>-V GS [V]  V GS [V]<br>15 Drain-source on-state resistance (P) 16 Drain-source on-state resistance (N)<br>R  DS(on)=f( T  j);  I  D=-3.2 A;  V  GS=-4.5 V R  DS(on)=f( T  j);  I  D=5.1A;  V  GS=4.5 V<br>240 100<br>90<br>200<br>80<br>70<br>160 max<br>60 max<br>120 50<br>typ  typ<br>40<br>80<br>30<br>20<br>40<br>10<br>0 oe 0<br>-60 -20 20 60 100 140 180 -60 -20 20 60 100 140 180<br>T j [°C]  T j [°C]<br>Rev 2.2 page 8<br> [A]   [A]<br>-I D I D<br>]  ]<br>W W<br>[m  [m<br>DS(on) DS(on)<br>R R<br>**----- End of picture text -----**<br>


Rev 2.2 

2014-08-28 

**BSZ15DC02KD H** 

## **17 Typ. gate threshold voltage (P)** 

_V_ GS(th)=f( _T_ j); _V_ GS= _V_ DS; _I_ D=-110 µA 

## **18 Typ. gate threshold voltage (N)** 

_V_ GS(th)=f( _T_ j); _V_ GS= _V_ DS; _I_ D=110 µA 

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1.6 1.6<br>max  max<br>1.2 1.2<br>typ<br>typ<br>min<br>0.8 min  0.8<br>0.4 0.4<br>0 0<br>-60 -20 20 60 100 140 180 -60 -20 20 60 100 140 180<br>T j [°C]  T j [°C]<br>19 Typ. capacitances (P) 20 Typ. capacitances (N)<br> =f( V  DS); );  V  GS=0 V; =0 V;  f  =1 MHz C  =f( V  DS);  V  GS=0 V;  f  =1 MHz<br>10 [3 ] 10 [3 ]<br>Ciss<br>Ciss  Coss<br>10 [2 ]<br>Coss<br>10 [2 ]<br>Crss<br>Crss<br>10 [1 ]<br>s i<br>10 [1 ] 10 [0 ]<br>0 10 20 0 5 10 15 20<br>-V DS [V]  V DS [V]<br>page 9<br>ro<br> [V]   [V]<br>GS(th) GS(th)<br>-V V<br> [pF]   [pF]<br>C C<br>**----- End of picture text -----**<br>


## **19 Typ. capacitances (P)** 

_C_ =f( _V_ DS); ); _V_ GS=0 V; =0 V; _f_ =1 MHz 

Rev 2.2 

2014-08-28 

**BSZ15DC02KD H** 

## **21 Forward characteristics of reverse diode (P)** 

_I_ F=f( _V_ SD) 

parameter: _T_ j 

## **22 Forward characteristics of reverse diode (N)** 

_I_ F=f( _V_ SD) 

parameter: _T_ j 

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10 [1 ] 10 [1 ]<br>25 °C<br>175 °C  175 °C<br>25 °C<br>10 [0 ] 10 [0 ]<br>max, 175°C<br>10 [-1 ] 10 [-1 ]<br>175 °C, max<br>max, 25 °C<br>25 °C, max<br>oof<br>10 [-2 ] 10 [-2 ]<br>0 0.5 1 1.5 2 0 0.4 0.8 1.2 1.6<br>-V SD [V]  V SD [V]<br>23 Avalanche characteristics (P) 24 Avalanche characteristics (N)<br>=f( t  AV); );  R  GS=25 W=25 WW I  AS=f( t  AV);  R  GS=25 W<br>parameter:  T  j(start) parameter:  T  j(start)<br>10 [1 ] 10 [1 ]<br>25 °C<br>25 °C  100 °C<br>100 °C  150 °C<br>150 °C<br>10 [0 ] 10 [0 ]<br>10 [-1 ] 10 [-1 ]<br>10 [0 ] 10 [1 ] 10 [2 ] 10 [3 ] 10 [0 ] 10 [1 ] 10 [2 ] 10 [3 ]<br>t AV [µs]  t AV [µs]<br> [A]  -I F  [A]  I F<br> [A]   [A]<br>-I AV I AV<br>**----- End of picture text -----**<br>


## **23 Avalanche characteristics (P)** 

_I_ AS=f( _t_ AV); ); _R_ GS=25 W=25 WW parameter: _T_ j(start) 

Rev 2.2 

page 10 

2014-08-28 

**BSZ15DC02KD H** 

## **25 Typ. gate charge (P)** 

_V_ GS=f( _Q_ gate); _I_ D=-3.2A pulsed parameter: _V_ DD 

## **26 Typ. gate charge (N)** 

_V_ GS=f( _Q_ gate); _I_ D=5.1A pulsed parameter: _V_ DD 

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6 6<br>5 5<br>-4 V<br>-10 V  -16 V<br>4 V  10 V<br>4 4<br>16 V<br>3 3<br>2 2<br>1 1<br>Sjfo) fe<br>0 0<br>0 1 2 3 4 5 0 0.5 1 1.5 2 2.5 3<br>-Q gate [nC]  Q gate [nC]<br>27 Drain-source breakdown voltage (P) 28 Drain-source breakdown voltage (N)<br> BR(DSS)=f(=f( T  j); );  I  D=-250 µA=-250 µA V  BR(DSS)=f( T  j);  I  D=250 µA<br>25 25<br>24 24<br>23 23<br>22 22<br>21 21<br>20 20<br>19 19<br>18 18<br>17 17<br>16 16<br>-60 -20 20 60 100 140 180 -60 -20 20 60 100 140 180<br>T j [°C]  T j [°C]<br> [V]   [V]<br>GS GS<br>-V V<br> [V]   [V]<br>BR(DSS) BR(DSS)<br>-V V<br>**----- End of picture text -----**<br>


## **27 Drain-source breakdown voltage (P)** 

_V_ BR(DSS)=f(=f( _T_ j); ); _I_ D=-250 µA=-250 µA 

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## **Package Outline PG-TSDSON-8** 

**==> picture [369 x 642] intentionally omitted <==**

**----- Start of picture text -----**<br>
PG-TDSON-8: Outline D A 59<br>5]<br>| PAU<br>C1 om LY<br>! Feed<br>“|<br>C b<br>Z<br>Fy 7<br>.<br>F6 D1<br>. ao<br>Me Co<br>FS Co on ©<br>Tom -——wIN_|__MAX| meres |eesIN” | WAX<br>A<br>SS<br>[0100.30<br>TS SY0.008 001<br>[0000.20 | 0.000 | 0.008<br>SY”<br>XX<br>[et 320d 80d it<br>[2 | 010+ 030 ~Y| Sos SidCtSC~Ct<br>[es 135. ~# Sit SCdYSC*~=—i os S~dCSSCit<br>2 F<br>[es | 06s | 08s | 0.02 | 0.034<br>[e060 0.7000 i<br>[1 dCOCSSCSCiC‘“‘(®NSSYONC(NNSNNCCSC*C‘S<br>[1+ oat SCidtSCté‘“‘éOSOW~C*d;S(C(s*‘“iCdSCt‘éa<br>poss<br>[aaa [oss rs [ont |)<br>[oe itC—<“—~*~sSSSC“‘CSNSNNC*NSOC‘“(’‘N#$N™CONNNCCOC*‘S<br>a 008 S002<br>a SY)<br>a AT<br>[rai o2s | o4a | 0009 | o017<br>a Y= SS<br>[rs | 070 | 090 | 0028 | 0035<br>Footprint<br>Dimensions in mm [Fr | 226 | 246 | 0.089 | 0.097] |<br>**----- End of picture text -----**<br>


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**Published by Infineon Technologies AG 81726 Munich, Germany © 2010 Infineon Technologies AG All Rights Reserved.** 

## **Legal Disclaimer** 

The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights of any third party. 

## **Information** 

For further information on technology, delivery terms and conditions and prices, please contact the nearest Infineon Technologies Office (www.infineon.com). 

## **Warnings** 

Due to technical requirements, components may contain dangerous substances. For information on the types in question, please contact the nearest Infineon Technologies Office. Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered. 

Rev 2.2 

page 13 

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