PWM driving of Inductive Loads with VND5T100LAJ-E

Chiranjeevi9391 · ‎2026-05-09

Hello,

I am evaluating the VND5T100AJ-E for an automotive application where I need to drive a 24V contactor. My design requirement is i need to drive the IC through the PWM signal as input.

I have reviewed the datasheet but do not see explicit PWM frequency ratings. My concerns are:

Does the VND5T100AJ-E support continuous PWM switching for an inductive load?
If this device is not recommended for PWM, could you suggest a similar specification alternative part with the same specifications that is specifically designed for PWM input @stmicro

Peter BENSCH · ‎2026-05-09

Welcome @Chiranjeevi9391, to the community!

TheVND5T100LAJ-E can also switch inductive loads, including via PWM. The switching frequency can be estimated based on the turn-on and turn-off delay times.

What PWM frequency are you planning to use?

Regards
/Peter

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Chiranjeevi9391 · ‎2026-05-09

We are planning to operate at max frequency of MHz's range.

Peter BENSCH · ‎2026-05-09

There’s no chance of even coming close to that. You might, with significant losses, reach around 1…2kHz, but under no circumstances higher PWM frequencies.

And to answer your question before you ask: there isn’t a single intelligent protected switch in the portfolio of STMicroelectronics that can meet your requirements. In my many years in the industry, during which I’ve seen intelligent switches from various manufacturers, I’ve never come across a switch with such a high switching frequency.

But perhaps we can offer some suggestions if you describe in detail, as precisely as possible, what it is you actually want to achieve or put into practice.

Regards
/Peter

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db16122 · ‎2026-05-10

what kind of load do you want to drive with this device? there are some delay time, so you may need to test with real enviroment

Chiranjeevi9391 · ‎2026-05-10

i need to drive the contactor like switch.

Chiranjeevi9391 · ‎2026-05-10

okay if i want to drive the load between 1kHz to 20kHz with that IC.

Peter BENSCH · ‎2026-05-10

@Chiranjeevi9391

Have you worked it out using the turn-on and turn-off delay times mentioned?
What’s your conclusion?

Regards
/Peter

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Chiranjeevi9391 · ‎2026-05-11

we didn't tried yet, we are confirming is that IC will works on PWM input
or not. based on our yesterday's conversation you said it will works on
PWM input could you please tell me if it works on PWM input, what is the
max frequency i can operate it.

Peter BENSCH · ‎2026-05-11

As mentioned before: "You might, with significant losses, reach around 1…2kHz, but under no circumstances higher PWM frequencies."

There is no achievable switching frequency stated in the datasheet for good reason, because it depends on many factors. However, if you take the figures from the datasheet, table 6, namely (dVOUT/dt)(on) = typ. 1V/µs and (dVOUT/dt)(off) = typ. 0.65µs, then for VCC = 24V, for example, you already get typ. 19.2µs for switch-on and typ. 12.48µs for switch-off. However, this figure is limited to a rise from 10% to 80% of the output voltage and a fall from 90% to 10% of the output voltage, so because of the unpredictability of inductive/capacitive effects it does not cover a complete switching cycle. The switch therefore already needs typically 31.68µs for these parts of a switching cycle.
If you assume an estimate of about 50µs, just to switch the switch on and immediately off again, you arrive at a theoretical switching frequency of 20kHz. At this timing, however, you have not yet delivered any significant energy to the output and are only heating the switch through the switching losses, so a sensible switching frequency is in the already mentioned 1...2kHz range.

Regards
/Peter

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