SFFSA44 December 2024 OPA991-Q1
Figure 4-2 shows the OPA991-Q1 pin diagram for the SOT-23 (DBV) - 6 package. For a detailed description of the device pins, see the Pin Configuration and Functions section in the OPA991-Q1 data sheet.
| Pin Name | Pin No. | Description of Potential Failure Effects | Failure Effect Class |
|---|---|---|---|
| OUT | 1 | Depending on the circuit configuration, the device is likely to be forced into a short-circuit condition with the OUT voltage ultimately forced to the V‒ voltage. Prolonged exposure to short-circuit conditions can result in long-term reliability issues. | A |
| IN+ | 3 | Device common-mode is tied to the negative rail. Depending on the circuit configuration, the output does not respond because the device is in an invalid common-mode condition. | C |
| IN‒ | 4 | The device does not receive negative feedback. Depending on the circuit configuration, the output moves to the negative supply. | B |
| SHDN | 5 | The device is unable to enter shutdown mode, otherwise the device can continue to function. | B |
| V+ | 6 | Op amp supplies are shorted together, leaving the V+ pin at a voltage amount between the V+ and V‒ sources (depending on the source impedance). | A |
| Pin Name | Pin No. | Description of Potential Failure Effects | Failure Effect Class |
|---|---|---|---|
| OUT | 1 | No negative feedback or ability for OUT to drive the application. | B |
| V‒ | 2 | Negative supply remains floating. The op amp ceases to function because no current sources or sinks to the device. | B |
| IN+ | 3 | Device common-mode is disconnected. The op amp is not provided with common-mode bias, and the device output results at the positive or negative rail. The IN+ pin voltage results at the positive or negative rail because of leakages on the ESD diodes. | B |
| IN‒ | 4 | Inverting pin of the op amp remains floating. Negative feedback is not provided to the device, resulting in the device output moving between the positive and negative rails. The IN‒ pin voltage can reach the positive or negative rail because of leakage on the ESD diodes. | B |
| SHDN | 5 | The device is unable to enter shutdown mode, otherwise the device can continue to function. | B |
| V+ | 6 | Positive supply is left floating. The op amp ceases to function because no current can source or sink to the device. | A |
| Pin Name | Pin No. | Shorted to | Description of Potential Failure Effects | Failure Effect Class |
|---|---|---|---|---|
| OUT | 1 | 2 | Depending on the circuit configuration, the device is forced into a short-circuit condition with the OUT voltage forced to the V‒ voltage. Prolonged exposure to short-circuit conditions can result in long-term reliability issues. | A |
| V‒ | 2 | 3 | Device common-mode is tied to the negative rail. Depending on the circuit configuration, the output does not respond because the device is in an invalid common-mode condition. | C |
| IN+ | 3 | 4 | Both inputs are tied together. Depending on the offset of the device, the output voltage moves to near mid supply. | D |
| IN‒ | 4 | 5 | The device is forced into shutdown mode or forced into enable mode depending on IN‒ voltage resulting in a loss of device functionality. | B |
| SHDN | 5 | 6 | The device is forced into shutdown mode resulting in a loss of device functionality. | B |
| V+ | 6 | 1 | Depending on the circuit configuration, the device is forced into a short-circuit condition with the V+ voltage ultimately forced to the OUT voltage. Prolonged exposure to short-circuit conditions can result in long-term reliability issues. | A |
| Pin Name | Pin No. | Description of Potential Failure Effects | Failure Effect Class |
|---|---|---|---|
| OUT | 1 | Depending on the circuit configuration, the device is forced into a short-circuit condition with the OUT voltage forced to the V+ voltage. Prolonged exposure to short-circuit conditions can result in long-term reliability issues. | A |
| V‒ | 2 | Op amp supplies are shorted together, leaving the V‒ pin at some voltage between the V‒ and V+ sources (depending on the source impedance). | A |
| IN+ | 3 | Depending on the circuit configuration, the application does not function because device common-mode voltage is connected to IN+. | B |
| IN‒ | 4 | The device does not receive negative feedback. Depending on the noninverting input voltage and circuit configuration, the output moves to the negative supply. | B |
| SHDN | 5 | The device is forced into shutdown mode resulting in a loss of device functionality. | B |