Datasheet LT1227 (Analog Devices) - 9
| Hersteller | Analog Devices |
| Beschreibung | 140MHz Video Current Feedback Amplifier |
| Seiten / Seite | 12 / 9 — APPLICATI. S I FOR ATIO. Large-Signal Transient Response, AV = +2. … |
| Dateiformat / Größe | PDF / 255 Kb |
| Dokumentensprache | Englisch |
APPLICATI. S I FOR ATIO. Large-Signal Transient Response, AV = +2. Shutdown. Large-Signal Transient Response, AV = –2
Modelllinie für dieses Datenblatt
Textversion des Dokuments
LT1227
O U U W U APPLICATI S I FOR ATIO Large-Signal Transient Response, AV = +2 Shutdown
The LT1227 has a high impedance, low supply current mode which is controlled by Pin 8. In the shutdown mode, the output looks like a 12pF capacitor and the supply current drops to approximately the Pin 8 current. The shutdown pin is referenced to the positive supply through VOUT an internal pullup circuit (see the simplified schematic). Pulling a current of greater than 50µA from Pin 8 will put the device into the shutdown mode. An easy way to force shutdown is to ground Pin 8, using open drain (collector) logic. Because the pin is referenced to the positive supply, the logic used should have a breakdown voltage of greater AI03 RF = 1k, RG= 1k, RL = 400Ω than the positive supply voltage. No other circuitry is necessary as an internal JFET limits the Pin 8 current to about 100µA. When Pin 8 is open, the LT1227 operates
Large-Signal Transient Response, AV = –2
normally.
Differential Input Signal Swing
The differential input swing is limited to about ±6V by an ESD protection device connected between the inputs. In normal operation, the differential voltage between the VOUT input pins is small, so this clamp has no effect; however, in the shutdown mode, the differential swing can be the same as the input swing. The clamp voltage will then set the maximum allowable input voltage. To allow for some margin, it is recommended that the input signal be less AI04 than ±5V when the device is shutdown. AI04 RF = 1k, RG= 510Ω, RL = 400Ω
Offset Adjust Settling Time
Pins 1 and 5 are provided for offset nulling. A small current to V+ or ground will compensate for DC offsets in the The characteristic curves show that the LT1227 amplifier device. The pins are referenced to the positive supply (see settles to within 10mV of final value in 40ns to 55ns for any the simplified schematic) and should be left open if un- output step up to 10V. The curve of settling to 1mV of final used. The offset adjust pins act primarily on the inverting value shows that there is a slower thermal contribution up input bias current. A 10k pot connected to Pins 1 and 5 to 20µs. The thermal settling component comes from the with the wiper connected to V+ will null out the bias output and the input stage. The output contributes just current, but will not affect the offset voltage much. Since under 1mV per volt of output change and the input the output offset is contributes 300µV per volt of input change. Fortunately the input thermal tends to cancel the output thermal. For VO ≅ AV • VOS + (IIN–) • RF this reason the noninverting gain of two configuration at higher gains (A settles faster than the inverting gain of one. V > 5), the VOS term will dominate. To null out the VOS term, use a 10k pot between Pins 1 and 5 with a 150k resistor from the wiper to ground for 15V split supplies, 47k for 5V split supplies. 9
O U U W U APPLICATI S I FOR ATIO Large-Signal Transient Response, AV = +2 Shutdown
The LT1227 has a high impedance, low supply current mode which is controlled by Pin 8. In the shutdown mode, the output looks like a 12pF capacitor and the supply current drops to approximately the Pin 8 current. The shutdown pin is referenced to the positive supply through VOUT an internal pullup circuit (see the simplified schematic). Pulling a current of greater than 50µA from Pin 8 will put the device into the shutdown mode. An easy way to force shutdown is to ground Pin 8, using open drain (collector) logic. Because the pin is referenced to the positive supply, the logic used should have a breakdown voltage of greater AI03 RF = 1k, RG= 1k, RL = 400Ω than the positive supply voltage. No other circuitry is necessary as an internal JFET limits the Pin 8 current to about 100µA. When Pin 8 is open, the LT1227 operates
Large-Signal Transient Response, AV = –2
normally.
Differential Input Signal Swing
The differential input swing is limited to about ±6V by an ESD protection device connected between the inputs. In normal operation, the differential voltage between the VOUT input pins is small, so this clamp has no effect; however, in the shutdown mode, the differential swing can be the same as the input swing. The clamp voltage will then set the maximum allowable input voltage. To allow for some margin, it is recommended that the input signal be less AI04 than ±5V when the device is shutdown. AI04 RF = 1k, RG= 510Ω, RL = 400Ω
Offset Adjust Settling Time
Pins 1 and 5 are provided for offset nulling. A small current to V+ or ground will compensate for DC offsets in the The characteristic curves show that the LT1227 amplifier device. The pins are referenced to the positive supply (see settles to within 10mV of final value in 40ns to 55ns for any the simplified schematic) and should be left open if un- output step up to 10V. The curve of settling to 1mV of final used. The offset adjust pins act primarily on the inverting value shows that there is a slower thermal contribution up input bias current. A 10k pot connected to Pins 1 and 5 to 20µs. The thermal settling component comes from the with the wiper connected to V+ will null out the bias output and the input stage. The output contributes just current, but will not affect the offset voltage much. Since under 1mV per volt of output change and the input the output offset is contributes 300µV per volt of input change. Fortunately the input thermal tends to cancel the output thermal. For VO ≅ AV • VOS + (IIN–) • RF this reason the noninverting gain of two configuration at higher gains (A settles faster than the inverting gain of one. V > 5), the VOS term will dominate. To null out the VOS term, use a 10k pot between Pins 1 and 5 with a 150k resistor from the wiper to ground for 15V split supplies, 47k for 5V split supplies. 9