| | Parameter | Min | Typ. | Max | Units | Test Conditions |
| V(BR)DSS | Drain-to-Source Breakdown Voltage | 60 | | | V | VGS=OV, ID= 250yA |
| AV(BR)DSS/ATJ | Breakdown Voltage Temp. Coefficient | | O073 | | woc | Reference t0 250C, ID= 1mA |
| RDS(on) | Static Drain-to-Source On-Resistance | | | 0 10 | Q | VGS=10V, ID=8.4A ~ |
| VGS(th) | Gate Threshold Voltage | 2 0 | | 4 0 | V | VDS=VGS, ID= 250UA |
| gfs | Forward Transconductance | 6 2 | | | S | Vos=25V, ID=8.4A |
| | | | | 25 | | Vos=60V, VGS=OV |
| IDSS | Drain-to-Source Leakage Current | | | 250 | UA | VDS=48V, VGS=OV, Tj=1250C |
| | Gate-to-Source Forward Leakage | | | 100 | | VGS=20V |
| IGSS | Gate-to-Source Reverse Leakage | | | -100 | nA | VGS=-20V |
| Q | Total Gate Charge | | | 25 | | ID=17A |
| Ogs | Gate-to-Source Charge | | | 5.8 | nC | VDS=48V |
| Qgd | Gate-to-Drain ("Miller") Charge | | | 11 | VGS=10V See Fig. 6 and 13 |
| td{on) | Turn-On Delay Time | | 13 | | | VOD=30V |
| tr | Rise Time | | 58 | | ID= 17A . |
| td(off) | Tu rn-Off Delay Time | | 25 | | ns | RG=18fl |
| tf | Fall Time | | 42 | | RD=1.7Q See Figure 10 @ |
| LD | Internal Drain Inductance | | 4.5 | | nH | Between lead, 6mm(025":f: from package |
| Ls | Internal Source Inductance | | 7 5 | | and center of die contact |
| ciss | Input Capacitance | | 640 | | pF | VGS=OV |
| coss | Output Capacitance | | 360 | | VDS= 25V |
| Crss | Reverse Transfer Capacitance | | 79 | | f=l.OMHz See Figure 5 |
| | | | | | |
External Instrumentation Interfaces System Trigger Output - Asserted whenever a system trigger occurs (TTL-compatible output, back-terminated int0 50 Q). BNC type connector. System Trigger Input - Forces a system trigger (triggers all modules) when asserted (l-[L-compatible, edge-sensitive, falling-edge latched). BNC type connector. External Signal Output - Can be used to drive external circuitry from a module's trigger mechanism
If a high precision amplifier is required with a gain of 100 0r more, the 176/178 Instrumentation amplifiers are a much better choice for most systems. If all else fails pleasa feelfree to call our applications engineers; we spend time trouble shooting our own systems and can sometimes spot trouble right away. We even learn new tricks from our customers!
