SFFS110 June   2021 TPS1663

 

  1.   Trademarks
  2. 1Overview
  3. 2Functional Safety Failure In Time (FIT) Rates
    1. 2.1 VQFN Package
    2. 2.2 HTSSOP Package
  4. 3Failure Mode Distribution (FMD)
  5. 4Pin Failure Mode Analysis (Pin FMA)
    1. 4.1 VQFN Package
    2. 4.2 HTSSOP Package

4.2 HTSSOP Package

Figure 4-3 shows the TPS1663 pin diagram for the HTSSOP package. For a detailed description of the device pins please refer to the Pin Configuration and Functions section in the TPS1663 data sheet.

GUID-B246D8E9-3444-4DFB-B8BA-761B567722ED-low.gif Figure 4-3 Pin Diagram (HTSSOP Package)
Table 4-6 Pin FMA for Device Pins Short-Circuited to Ground
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
IN 1, 2, 3 Device unpowered. Device not functional. B
NC 4, 5, 17 No effect. Normal operation. D
P_IN 6 Device unpowered. Device not functional. B
UVLO 7 UVLO protetion is triggered. Device turns off the internal FET. B
OVP 8 Over-voltage protection will not function. B
GND 9 No effect. Normal operation. D
dVdT 10 Device doesn’t power up. B
ILIM 11 Device doesn’t power up. B
MODE 12 Device provides auto-retry behavior for over-current events as per device functional modes in data sheet. D
SHDN 13 Device is disabled. B
IMON 14 Current monitor function is not available. B
FLT 15 Fault function not available. B
PGOOD 16 PGOOD function not available. B
OUT 18, 19, 20 Device will enter into current limiting operation. B
Table 4-7 Pin FMA for Device Pins Open-Circuited
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
IN 1, 2, 3 Device unpowered. Device not functional. B
NC 4, 5, 17 No effect. Normal operation. D
P_IN 6 Device unpowered. Device not functional. B
UVLO 7 Device functionality undetermined. Device may turn off / power down. B
OVP 8 Over-voltage protection function is not determined. Device may turn off the internal FET. B
GND 9 Device unpowered. Device not functional. B
dVdT 10 Device provides slew rate 24 V/500 μs on output at power up. D
ILIM 11 Internal FET is turned off. Output is not powered up. B
MODE 12 Device provides latch-off behavior for over-current events as per device functional modes in data sheet. D
SHDN 13 No effect. Normal operation. D
IMON 14 No effect. Normal operation. D
FLT 15 No effect. Normal operation. D
PGOOD 16 No effect. Normal operation. D
OUT 18, 19, 20 No power or current provided to load. D
Table 4-8 Pin FMA for Device Pins Short-Circuited to Adjacent Pin
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
IN 1, 2, 3 IN to NC: no effect. Normal operation. D
NC 4, 15, 17 NC to P_IN: no effect. Normal operation. D
P_IN 6 P_IN to UVLO: under-voltage protection will not function. B
UVLO 7 UVLO to OVP: potential device damage if UVLO voltage is more than 5.5 V. B
OVP 8 OVP to GND: over-voltage protection will not function. B
GND 9 GND to dVdT: device unpowered. Device not functional. B
dVdT 10 dVdT to ILIM: device can go into current limit operation. B
ILIM 11 ILIM to MODE: device can go into current limit operation or Latch-off mode. B
MODE 12 MODE to SHDN: device can go into shutdown. B
SHDN 13 SHDN to IMON: device can go into shutdown. B
IMON 14 IMON to FLT: potential Device damage if FLT pin voltage is more than 5.5 V. A
FLT 15 PGOOD to FLT: oring of PGOOD and FLT signals. D
PGOOD 16 PGOOD to OUT: potential device damage when PGOOD is low and output is powered up. A
OUT 18, 19, 20 OUT to N.C: no effect. Normal operation. D
Table 4-9 Pin FMA for Device Pins Short-Circuited to IN or P_IN
Pin Name Pin No. Description of Potential Failure Effect(s) Failure Effect Class
IN 1,2 No effect. Normal operation. D
NC 3, 4, 17 No effect. Normal operation. D
P_IN 6 No effect. Normal operation. D
UVLO 7 Under-voltage protection will not function. B
OVP 8 Potential device damage if supply voltage is more than 5.5 V D
GND 9 Short circuit of input supply. B
dVdT 10 Potential device damage if supply voltage is more than 5.5 V. A
ILIM 11 Potential device damage if supply voltage is more than 5.5 V. A
MODE 12 Potential device damage if supply voltage is more than 5.5 V. A
SHDN 13 Potential device damage if supply voltage is more than 5.5 V. A
IMON 14 Potential device damage if supply voltage is more than 5.5 V. A
FLT 15 Potential device damage if FLT pin is low. A
PGOOD 16 Potential device damage if PGOOD pin is low. A
OUT 18, 19, 20 Device will not limit power or current into load. B