Smart Dual Coil Latching Relay Driver – Bistable Relay Module

Rajkumar Sharma
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SKU: EL123463
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This Smart Dual Coil latching Relay board can control the ON/OFF power of a device by applying a short voltage pulse to input 1 and input 2. This project is useful in low power applications since the coil is not powered all the time and only requires a short voltage pulse. The relay coil remains in that position even if the power is disconnected. The project is built using FAN3240 chips from ONSEMI. This chip includes dual high current relay drivers designed to drive dual-coil polarized latching relays that connect and disconnect power in smart electronic meters and solar inverter applications. The IC includes auto thermal shutdown and a filter/timer block is there to prevent inadvertent switching from noisy input signals by providing input-pulse qualification (tQUAL) and maximum output pulse width limit (tMAX). Polarized, bi-stable, latching relays are utilized in many kinds of electronics equipment and diverse applications. These relays usually employ two coils, one to move the relay contacts(s) from open to close position and another coil to move the contacts(s) from close to open position. To facilitate mechanical movement, the relay coils need to be energized for a specific time interval. Once the contact(s) have changed position, the voltage should be removed from the winding of the relay. As shown in the schematic below, a dual-coil relay is connected to its supply rail at the center point of the two relay windings. Each winding can be energized by the switches connected to the relay coils out-1 and output-2. Diodes D4 and D5 are used as clamping diodes. Operation is very simple, enable PINs need to be high, apply minimum 15ms trigger voltage to input 1, this will provide 150ms pulse to relay coil -1 and coil moves contact(s) open to close, and when 15ms pulse is applied to input 2, coil-2 energized for 150ms and moves the contact(s) from close to open. Capacitor C3 is a filter capacitor for the internal 5V regulator of the chip.

Note: The project is designed to drive 12V relay, but it can also drive 24V or 48V relay, read the data sheet of chip for components selection.

Note: Pay attention to the TTL logic levels, HIGH voltage should not exceed 5.5V otherwise IC may be damaged. Logic LOW is 0V

Features

Input Supply 12V DC
Maximum Power Consumption Continues 5mA, Maximum 40mA when Relay is triggered for Short Time
Accurate Input Qualification Time 15ms with Output Pulse Width Limit 150ms
TTL Input Threshold, Enable, Input1, and Input 2 (High=5V – Low=0V)
Minimum Input Pulse Width 15ms (The minimum input pulse width recognized as a valid input command) T-QUAL
Maximum Output Pulse Width 150ms. Output pulses are terminated after this time interval even if the input pulse is longer or held in a high state continuously, T-Max
Internal Thermal Shutdown Protection
PCB Dimensions 37.15 x 31.27 mm

Connector CN

Pin1: VCC 12V DC @ 40mA
Pin2: Enable/disable pin allows shutdown of both channels (Enable=High Voltage – 5V TTL Level)
Pin3: Input 1 to Set the Output (TTL)
Pin4: input 2 to Reset the Output (TTL)
Pin5: GND

Connector CN2: Relay Output Power ON/OFF Connections

D1 LED: Power LED
D2 LED: Output 2 Indicator
D3 LED: Output 1 Indicator

What is Latching Relay/Dual Coil Relay

Latching relays are commonly used in low power consumption or high-temperature applications where applying coil power for a long time cannot be afforded due to power consumption or self-heating of the coil. Instead of a continuous voltage applied to the coil, they are operated with short voltage pulses instead. Latching relays change contact position when a coil voltage is applied and remain in that position even if the voltage is disconnected. (It is common to use the term SET for operating a latching relay). To reset a latching relay another voltage pulse needs to be applied.

The FAN3240 includes dual high-current relay drivers designed to drive dual-coil polarized latching relays that connect and disconnect power in smart electronic meters and solar inverter applications. The output of the FAN3240 is rated for operation with supply rails from 8 V to 60 V. The filter/timer block prevents inadvertent switching from noisy input signals by providing input-pulse qualification (tQUAL) and maximum output pulse width limit (tMAX). The parameters are factory adjustable and additional configurations are available. XOR input protection is also provided so that both outputs are prevented from being on at the same time. The under-Voltage Lockout (UVLO) function disables the outputs until the supply voltage is within the operating range. The FAN3240 has two separate driver channels with non-inverting logic. One enable/disable pin allows shutdown of both channels, independent of the input signals. Internal thermal shutdown function is provided for thermal protection.

Schematic

Parts List

NO	QNTY.	REF.	DESC.	MANUFACTURER	SUPPLIER	PART NO
1	1	CN1	5 PIN MALE HEADER PITCH 2.54MM	WURTH	DIGIKEY	732-5318-ND
2	1	CN2	3 PIN SCREW TERMINAL	PHOENIX	DIGIKEY	277-1248-ND
3	2	C1,C3	10uF/25V SMD SIZE 1206	MURATA/YAGEO	DIGIKEY
4	1	C2	0.1uF/25V SMD SIZE 0805	MURATA/YAGEO	DIGIKEY
5	3	D1,D2,D3	LED SMD SIZE 0805/SELECT DIFFERENT COLOR	LITE ON INC	DIGIKEY	160-1427-1-ND
6	2	D4,D5	1N4007	SMC DIODE	DIGIKEY	1655-1N4007FLCT-ND
7	1	LS1	RELAY RT314F12	TE CONNECTIVITY	DIGIKEY	PB963-ND or Z4396-ND
	1	LS1	or RELAY G5RL-K1-E-DC12	OMRON	MOUSER	G5RL-K1-E-DC12
8	3	R1,R2,R3	1K 5% SMD SIZE 0805	MURATA/YAGEO	DIGIKEY
9	1	U1	FAN3240TMX SOIC8	ON SEMI	ELEMENT14	3003952