PU3173, PU3210, PU3211

The PU3173 is designed as silicon NPN epitaxial planar type with 3 NPN elements.

Some absolute maximum ratings have been concluded into several points as follow. The first one is about its collector to base voltage which would be 100V. The next one is about its collector to emitter voltage which would be 100V. The next one is about its emitter to base voltage which would be 6V. The next one is about its peak collector current which would be 8A. The next one is about its collector current which would be 4A. The next one is about its power dissipation which would be 15W. The next one is about its junction temperature range which would be 150°C. The next one is about its storage temperature range which would be from -55 to +150°C.

Also there are some electrical characteristics having been concluded into several points as follow. The first one is about its collector cutoff current which would be max 100A with condition of Vce=80V and Ib=0. The next one is about its emitter cutoff current which would be max 5mA with condition of Veb=5V and Ic=0. The next one is about its collector to emitter voltage which would be min 100V with condition of Ic=10mA and Ib=0. The next one is about its DC current gain which would be min 1000 and max 10000 with condition of Vce=4V and Ic=2A. The next one is collector to emitter saturation voltage which would be max 2.5V. The next one is about its base to emitter saturation voltage which would be max 2.5V with condition of Ic=4A and Ib=16mA. The next one is about its transition frequency which would be typ 20MHz with condition of Vce=10V, Ic=0.5A and f=1MHz. And so on. For more information please contact us.

The PU3210 is designed as silicon NPN epitaxial planar type.

It has four features. The first one is it would have low collector to emitter saturation voltage. The next one is that it would have high collector current. The next one is it would have good linearity of DC current gain. The next one is it would have 3 NPN elements. That are all the main features.

Some absolute maximum ratings have been concluded into several points as follow. The first one is about its collector to base voltage which would be -60V. The next one is about its collector to emitter voltage which would be -60V. The next one is about its emitter to base voltage which would be -6V. The next one is about its peak collector current which would be -5A. The next one is about its collector current which would be -3A. The next one is about its power dissipation which would be 15W. The next one is about its junction temperature range which would be 150°C. The next one is about its storage temperature range which would be from -55 to +150°C.

Also there are some electrical characteristics having been concluded into several points as follow. The first one is about its collector cutoff current which would be max -200uA with condition of Vce=-30V and Ib=0. The next one is about its emitter cutoff current which would be max -1mA with condition of Veb=-6V and Ic=0. The next one is about its collector to emitter voltage which would be min -60V with condition of Ic=-30mA and Ib=0. The next one is about its DC current gain which would be min 70 and max 250 with condition of Vce=-4V and Ic=-1A. The next one is collector to emitter saturation voltage which would be max -1.8V. The next one is about its transition frequency which would be typ 30MHz with condition of Vce=-10V, Ic=-0.5A and f=10MHz. And so on. For more information please contact us.

The PU3211 is designed as silicon NPN epitaxial planar type.

It has four features. The first one is it would have low collector to emitter saturation voltage. The next one is that it would have high collector current. The next one is it would have good linearity of DC current gain. The next one is it would have 3 NPN elements. That are all the main features.

Some absolute maximum ratings have been concluded into several points as follow. The first one is about its collector to base voltage which would be -60V. The next one is about its collector to emitter voltage which would be -60V. The next one is about its emitter to base voltage which would be -5V. The next one is about its peak collector current which would be -8A. The next one is about its collector current which would be -4A. The next one is about its power dissipation which would be 15W. The next one is about its junction temperature range which would be 150°C. The next one is about its storage temperature range which would be from -55 to +150°C.

Also there are some electrical characteristics having been concluded into several points as follow. The first one is about its collector cutoff current which would be max -700uA with condition of Vce=-30V and Ib=0. The next one is about its emitter cutoff current which would be max -1A with condition of Veb=-5V and Ic=0. The next one is about its collector to emitter voltage which would be min -60V with condition of Ic=-30mA and Ib=0. The next one is about its DC current gain which would be min 70 and max 250 with condition of Vce=-4V and Ic=-1A. The next one is collector to emitter saturation voltage which would be max -1.5V. The next one is about its transition frequency which would be typ 20MHz with condition of Vce=-10V, Ic=-0.1A and f=1MHz. And so on. For more information please contact us.