AD745HOW CHIP PACKAGE TYPE AND POWER DISSIPATION300TAFFECT INPUT BIAS CURRENTA = 25C As with all JFET input amplifiers, the input bias current of the AD745 is a direct function of device junction temperature, IB approximately doubling every 10°C. Figure 9 shows the rela- Amps – 200 tionship between bias current and junction temperature for the JA = 165C/W AD745. This graph shows that lowering the junction tempera- ture will dramatically improve IB. 10–6100JA = 115C/WVS = 15V TA = 25CINPUT BIAS CURRENT10–7JA = 0C/WAmps – 10–80 51015SUPPLY VOLTAGE –Volts10–9 Figure 11. Input Bias Current vs. Supply Voltage for Various Values of θJA 10–10TJINPUT BIAS CURRENT10–11A (J TO DIE MOUNT)10–12–60–40–20020406080100120140JUNCTION TEMPERATURE –CB (DIE MOUNT Figure 9. Input Bias Current vs. Junction Temperature TO CASE)TA The dc thermal properties of an IC can be closely approximated by using the simple model of Figure 10 where current represents A +B =JCCASE power dissipation, voltage represents temperature, and resistors represent thermal resistance (θ in °C/watt). Figure 12. Breakdown of Various Package Thermal Resistance TJCCAJREDUCED POWER SUPPLY OPERATION FORJALOWER IPTBINA Reduced power supply operation lowers IB in two ways: first, by lowering both the total power dissipation and, second, by reduc- WHERE: ing the basic gate-to-junction leakage (Figure 11). Figure 13 PIN = DEVICE DISSIPATION shows a 40 dB gain piezoelectric transducer amplifier, which TA = AMBIENT TEMPERATURE operates without an ac coupling capacitor, over the –40°C to TJ = JUNCTION TEMPERATURE +85°C temperature range. If the optional coupling capacitor, JC = THERMAL RESISTANCE – JUNCTION TO CASECA = THERMAL RESISTANCE – CASE TO AMBIENT C1, is used, this circuit will operate over the entire –55°C to +125°C temperature range. Figure 10. Device Thermal Model From this model T 10010k J = TA+θJA PIN. Therefore, IB can be deter- mined in a particular application by using Figure 9 together with C1* the published data for θ 108CT**** JA and power dissipation. The user can +5V modify θJA by use of an appropriate clip-on heat sink such as the Aavid #5801. Figure 11 shows bias current versus supply voltage AD745TRANSDUCER with θJA as the third variable. This graph can be used to predict bias current after θJA has been computed. Again bias current will CT108–5V double for every 10°C. *OPTIONAL DC BLOCKING CAPACITOR **OPTIONAL, SEE TEXT Figure 13. A Piezoelectric Transducer REV. D –9–
