eFuse Parts Selection
eFuse IC: TPS25983 (
)
This eFuse IC was selected because…
Its wide 2 - 18 A current limit range allows flexibility without needing to parallelize any eFuses.
Has functionality for overcurrent, under/overvoltage, slew rate control, reverse current (via external FET). (Note that we will be implementing undervoltage protection ourselves so that the EN/UVLO pin can be used as an EN pin for switching of outputs.)
Monitoring functionality for current and fault state.
Works for 12V and 24V systems.
It’s on the more pricy side of TI eFuses but the wide current range and flexibility in voltage will allow us to save costs by requiring fewer ICs if we can keep the same system working into the next-generation vehicle.
Note that we will want the circuit breaker variant of this eFuse and not the current limiting variant.
Calculated Component Values for eFuse Protection Functions
Overcurrent Limit Resistor
According to the datasheet, the formula for determining the resistance of a particular current limit is…
For a current limit range of 2 - 18 A, a range of possible goes from 81.610 Ω to 772.487 Ω.
On the BBPDU, we will be using a digital POT IC to be able to easily change the current limit through code. Its selection is described in a section below.
Overcurrent Blanking Interval Capacitor
The overcurrent blanking interval is the period where a current past the limit threshold is ignored for a time period. This is used to help deal with transients and avoid false alarms.
The overcurrent blanking interval is defined as…
Where the capacitance for a specific blanking interval is…
Current Monitoring Resistor
The current monitor works by creating a proportional current to the one flowing through the eFuse.
According to the datasheet, the formula for determining the a particular load current is…
The G_IMON is a proportionality constant given in the electrical characteristics to be 243 uA/A.
Rearranging this to solve for the value of R_IMON that we wish to use… (as shown on p. 24 of the datasheet)
Our ADC can read a maximum value of 3.3 V (most likely, need to confirm), so V_IMON = 3.3 V.
The maximum ILOAD of the eFuse is 18 A. Although most, if not all, of our outputs will not utilize that full quantity, we will
On page 24 of the TPS25983 datasheet, the following formula is also shown in terms of
Retry # of Attempts
Retry Delay
Slew Rate
The integrated output slew rate helps control large inrush current. The formula for determining the slew rate of a particular load capacitance is…
According to the datasheet, the formula for determining the capacitance of a particular slew rate is…
It is recommended to select a capacitor with a value 20% higher than the calculated one and then choose the closest available capacitor from the 10% tolerance series. This is because the dV/dt capacitor experiences approximately VIN + 4 V during startup, and the high voltage bias causes a reduction in the effective capacitance.
Overvoltage Lockout
According to the datasheet, the formula for determining the OVLO for a given power supply is…
The eFuse turns OFF the power to the output when the voltage at the OVLO pin is greater than the OVLO rising threshold, VOV(R). The output power is turned ON again after the voltage at the OVLO pin falls below the OVLO falling threshold, VOV(F).
Overvoltage Protection (OVLO) | Min (V) | Typ (V) | Max (V) |
|---|---|---|---|
VOV(R) | 1.1 | 1.21 | 1.25 |
VOV(F) | 1.08 | 1.1 | 1.125 |
Gate Resistance (for external FET)
Digital POT IC: AD5258BRMZ1 (
)
The current limit is set on the eFuse IC using a resistance from the ILIM pin to ground. In order to allow this limit to be easily adjustable without replacing components or opening up the PCB’s enclosure, we will use a digital potentiometer/rheostat IC.
This digital POT IC features a range from about 150 Ω - 1150 Ω, which covers the range of resistances calculated above that we need to be able to set the eFuse. It doesn’t fully cover the lower end of resistance values, but that is for very high current limits that we are unlikely to set.
Another potential option could be the AD8400. It has a smaller package, more resistance positions, and a smaller package, but is significantly more expensive.
External FET: SQJ868EP-T1_GE3 (
)
The TP25983 offers the ability to drive the gate of an external FET to block reverse current.
Monitoring Parts Selection
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