SCDA025 September 2022 TS3A27518E-Q1
Figure 4-1 shows the TS3A27518E-Q1 pin diagram for the TSSOP-24 package. For a detailed description of the device pins, refer to the Pin Configuration and Functions section in the TS3A27518E-Q1 data sheet.
| Pin Name | Pin No. | Description of potential failure effect(s) | Failure effect class |
|---|---|---|---|
| NC2 | 1 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NC1 | 2 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| N.C. | 3 | No effect, unconnected pin. | D |
| COM1 | 4 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| GND | 5 | No effect; normal operation. | D |
| COM2 | 6 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| COM3 | 7 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| VCC | 8 | Device is unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible. | A |
| COM4 | 9 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| COM5 | 10 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO1 | 11 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| COM6 | 12 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO2 | 13 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| IN2 | 14 | Address is stuck low. Cannot control the switch states. | B |
| NO3 | 15 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO6 | 16 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO4 | 17 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO5 | 18 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NC5 | 19 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| EN | 20 | EN is stuck low. Can no longer disable the device. | B |
| NC4 | 21 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NC6 | 22 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NC3 | 23 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| IN1 | 24 | Address is stuck low. Cannot control the switch states. | B |
| Pin Name | Pin No. | Description of potential failure effect(s) | Failure effect class |
|---|---|---|---|
| NC2 | 1 | Corruption of the signal passed onto the COM2 pin. | B |
| NC1 | 2 | Corruption of the signal passed onto the COM1 pin. | B |
| N.C. | 3 | No effect; unconnected pin. | B |
| COM1 | 4 | Corruption of the signal passed onto the NO1/NC1 pins. | B |
| GND | 5 | No effect; normal operation. | B |
| COM2 | 6 | Corruption of the signal passed onto the NO2/NC2 pins. | B |
| COM3 | 7 | Corruption of the signal passed onto the NO3/NC3 pins. | B |
| VCC | 8 | Device is unpowered and not functional. | B |
| COM4 | 9 | Corruption of the signal passed onto the NO4/NC4 pins. | B |
| COM5 | 10 | Corruption of the signal passed onto the NO5/NC5 pins. | B |
| NO1 | 11 | Corruption of the signal passed onto the COM1 pin. | B |
| COM6 | 12 | Corruption of the signal passed onto the NO6/NC6 pins. | B |
| NO2 | 13 | Corruption of the signal passed onto the COM2 pin. | B |
| IN2 | 14 | Loss of control of the IN2 pin. Cannot control the switch. Unknown state can cause an increase in the IDD current | B |
| NO3 | 15 | Corruption of the signal passed onto the COM3 pin. | B |
| NO6 | 16 | Corruption of the signal passed onto the COM6 pin. | B |
| NO4 | 17 | Corruption of the signal passed onto the COM4 pin. | B |
| NO5 | 18 | Corruption of the signal passed onto the COM5 pin. | B |
| NC5 | 19 | Corruption of the signal passed onto the COM5 pin. | B |
| EN | 20 | Loss of control of the EN pin. Cannot disable the switch. Unknown state can cause an increase in the IDD current | B |
| NC4 | 21 | Corruption of the signal passed onto the COM4 pin. | B |
| NC6 | 22 | Corruption of the signal passed onto the COM6 pin. | B |
| NC3 | 23 | Corruption of the signal passed onto the COM3 pin. | B |
| IN1 | 24 | Loss of control of the IN2 pin. Cannot control the switch. Unknown state can cause an increase in the IDD current. | B |
| Pin Name | Pin No. | Shorted to | Description of Potential Failure Effect(s) | Failure Effect Class |
|---|---|---|---|---|
| NC2 | 1 | NC1 | Possible corruption of the signal passed onto the COM pin. | B |
| NC1 | 2 | N.C. | Unconnected pin, electrically floating; no effect. | D |
| N.C. | 3 | COM1 | Unconnected pin, electrically floating; no effect. | D |
| COM1 | 4 | GND | Corruption of the signal passed onto the NO1/NC1 pins. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| GND | 5 | COM2 | Device functions, but the analog signal is corrupted. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| COM2 | 6 | COM3 | Possible corruption of the signal passed onto the NO/NC pins. | B |
| COM3 | 7 | VCC | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| VCC | 8 | COM4 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| COM4 | 9 | COM5 | Possible corruption of the signal passed onto the NO/NC pins. | B |
| COM5 | 10 | NO1 | Possible corruption of the signal passed onto the COM5 and NO1/NO5 pin. | B |
| NO1 | 11 | COM6 | Possible corruption of the signal passed onto the NO1 and COM6/COM1 pin. | B |
| COM6 | 12 | NO2 | Not considered; corner pin. | D |
| NO2 | 13 | IN2 | Possible corruption of the signal passed onto the COMx pins. Loss of control of the switch state. | B |
| IN2 | 14 | NO3 | Possible corruption of the signal passed onto the COMx pins. Loss of control of the switch state. | B |
| NO3 | 15 | NO6 | Possible corruption of the signal passed onto the COM pin. | B |
| NO6 | 16 | NO4 | Possible corruption of the signal passed onto the COM pin. | B |
| NO4 | 17 | NO5 | Possible corruption of the signal passed onto the COM pin. | B |
| NO5 | 18 | NC5 | Possible corruption of the signal passed onto the COM pin. | B |
| NC5 | 19 | EN | Corruption of the signal passed onto the NC5 pin. Loss of control of the switch state. | A |
| EN | 20 | NC4 | Corruption of the signal passed onto the NC4 pin. Loss of control of the switch state. | A |
| NC4 | 21 | NC6 | Possible corruption of the signal passed onto the COM pin. | B |
| NC6 | 22 | NC3 | Possible corruption of the signal passed onto the COM pin. | B |
| NC3 | 23 | IN1 | Possible corruption of the signal passed onto the COMx pins. Loss of control of the switch state. | B |
| IN1 | 24 | NC2 | Not considered; corner pin. | D |
| Pin Name | Pin No. | Description of potential failure effect(s) | Failure effect class |
|---|---|---|---|
| NC2 | 1 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NC1 | 2 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| N.C. | 3 | No effect, unconnected pin. | D |
| COM1 | 4 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| GND | 5 | Device is unpowered and not functional. Observe that the absolute maximum ratings for all pins of the device are met, otherwise device damage may be plausible. | A |
| COM2 | 6 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| COM3 | 7 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| VCC | 8 | No effect; normal operation. | D |
| COM4 | 9 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| COM5 | 10 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO1 | 11 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| COM6 | 12 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO2 | 13 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| IN2 | 14 | Address stuck high. Cannot control the switch states. | B |
| NO3 | 15 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO6 | 16 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO4 | 17 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NO5 | 18 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NC5 | 19 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| /EN | 20 | EN stuck high. Can no longer enable the device. | B |
| NC4 | 21 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NC6 | 22 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| NC3 | 23 | Corruption of the analog signal. If there is no limiting resistor in the switch path, then device damage is possible. | A |
| IN1 | 24 | Address stuck high. Cannot control the switch states. | B |