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12V Automotive LED - Relay - Motor Control Multichannel low side SPI Driver IC TLE75004-EPD (SPIDER) - Over Load Protection

Open online SPICE simulator circuit link: atv_12v_LED_lighting_valve_motor_driver_spider_TLE75004-EPD_OVL.TSC


12V Automotive LED, Enhanced Relay & Motor Control Multichannel
low side SPI Driver IC TLE75004-EPD (SPIDER)

Over load protection in active mode (OVL)

change simulation time:
"Analysis->Transient: Start - End Display"

The TLE75004-EPD is a SPI controlled 4 channel low side switch out of Infineon's
new SPIDER+ family. The SPIDER+ products offeres improved and added functionality,
such as Cranking capability, very low current consumption in sleep mode, an improved
thermal performance, enhanced diagnosis features via SPI (16 Bit) and an input
mapping function for the 2 direct inputs. An input status register in combination with the
output status monitor and the open load at OFF detection allows to track the entire path,
from microcontroller to the loads. A fail safe mode (Limp Home) supplied from battery
maintains the functionality even with missing digital voltage supply. Short circuit, over
current and over temperature shutdown secures the protection of the loads and the switch.

This test bench tests the behavior when the channel is in Over Load condition.
A reset signal is applied to clear the fault latch between two short circuit events.

Fault flag (OT or OVL): ERRn_reg
Fault latch clear: HWCR_OCL_reg
Open Load Detection in OFF-State: DIAG_IOL_reg
Output Status Monitor: DIAG_OSM_reg

Switching channels in parallel
HWCR_PAR_reg register coding

HWCR_PAR0=1 CH0 & CH2
HWCR_PAR1=1 CH1 & CH3

PAR_reg | PAR1 PAR0
0 | 0 0
1 | 0 1
2 | 1 0
3 | 1 1

THERMAL_MODEL=1: P=1W; T=85°C; PCB type: 1s0p 300mm2
THERMAL_MODEL=2: P=1W; T=85°C; PCB type: 1s0p 600mm2
THERMAL_MODEL=3: P=1W; T=85°C; PCB type: 1s0p footprint
THERMAL_MODEL=4: P=1W; T=85°C; PCB type: 2s2p
where: P=power injected in chip; T=ambient temperature

Observations:
1. It is required to let the TJ pin open (no external connection)
2. The convention is 1V=1°C

CH3 CH2 CH1 CH0 | signal
0 0 0 0 | 0
0 0 0 1 | 1
0 0 1 0 | 2
0 0 1 1 | 3
0 1 0 0 | 4
0 1 0 1 | 5
0 1 1 0 | 6
0 1 1 1 | 7
1 0 0 0 | 8
.................................I............
1 1 1 0 | 14
1 1 1 1 | 15

The Ambient temperature of the entire chip can be set by
connecting a voltage source to TAMB input pin.

Junction temperature can be monitored on TJx output pin.
TJx is always TAMB + temperature due to self-heating of
power device.

The model contains 4 different Junction to Ambient thermal
networks associated to different metallization and cooling
areas.To switch between the four networks available, change
the value of THERMAL_MODEL parameter which can be
found on the test bench




Product info: TLE75004-EPD
Evaluation Board: TLE75004-EPD DB
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