This is the compact version of a simple carrier for Allegro’s ACS37100LMATR-025B3 TMR-based, electrically isolated current sensor that offers a high 10 MHz bandwidth with high accuracy, low noise, and typical response times of 50 ns.

We are offering these breakout boards with support from Allegro Microsystems as an easy way to use or evaluate their ACS37100 tunneling magnetoresistance (TMR), galvanically isolated, high-bandwidth (DC to 10 MHz) current sensors; we therefore recommend careful reading of the ACS37100 datasheet (2MB pdf) before using this product. The following list details some of the sensor’s key features:

• ACS37100 sensors use Allegro’s patented XtremeSense™ TMR (tunneling magnetoresistance) technology for high accuracy, high bandwidth, electrically isolated current measurements.
• Sensor can be inserted anywhere along the current path and used in applications that require electrical isolation.
• High bandwidth (DC to 10 MHz) analog voltage output proportional to the current.
• 50 ns typical response time.
• Differential TMR sensing rejects common-mode fields, so the orientation of the sensor relative to uniform external magnetic fields (e.g. the Earth’s magnetic field) has less effect on the measurement.
• 1.2 mΩ primary current path resistance in the sensor IC, and the PCB is made with 2-layer, 2-oz copper, so very little power is lost in the module.
• Output is not ratiometric (i.e. the zero point and sensitivity are independent of the actual supply voltage), which provides immunity from noisy supplies.
• User-configurable overcurrent fault output with 100 ns response time indicates when the current magnitude exceeds the set threshold and can be used for fast short-circuit detection.
• VREF output for pseudo-differential signaling in noisy application environments.
• Integrated digital temperature compensation circuitry allows improved accuracy over the full operating temperature range.
• Automotive-grade operating temperature range of -40°C to 150°C.
• Carrier boards include routed slots for increased creepage along the PCB surface and offer a variety of ways to insert it into the current path along with 0.1″-pitch (breadboard-compatible) power, ground, and output pins.
• Optional connection points for convenient 4-wire measurement of the IC current path resistance.

The connection points and the direction interpreted as positive current flow (via the +i arrow) are labeled on the silkscreen.

The following table lists the available ACS37100 carrier options:

Details for item #5477

ACS37100LMATR-050B3 TMR Current Sensor Compact Carrier -50A to +50A, 3.3V, bottom view.                ACS37100 TMR Current Sensor Compact Carrier

This compact carrier features the ACS37100LMATR-050B3, which is intended for nominal 3.3 V operation and is designed for bidirectional input current from -50 A to +50 A. This version can be visually distinguished from the other versions by the “50” printed on the bottom side, as sh

own in the left picture above.

Using the sensor

This sensor has five required connections: the input current (IP+ and IP-), logic power (VDD and GND), and the sensor output (VOUT).

The sensor requires a supply voltage of 3.0 V to 3.6 V to be connected across the VDD and GND pads, which are labeled on the bottom silkscreen. The sensor outputs an analog voltage on VOUT that is centered at 1.65 V and changes by 26.4 mV per amp of input current, with positive current increasing the output voltage and negative current decreasing the output voltage:

VOUT=1.65V+0.0264VA⋅IP

IP=VOUT–1.65V0.0264VA=(VOUT–1.65V)⋅37.9AV

The output is not ratiometric, so the zero point and sensitivity are independent of the actual supply voltage.

The zero-current reference voltage, which is available on VREF, can be used to reduce errors due to reference shifts or noise on the ground line.

The carrier board also includes two optional connection points, marked in red in the picture above, for taking a 4-wire measurement of the IC current path resistance. This is to more conveniently evaluate that property of the chip and is not required for normal use of this product as a current sensor.

Setting the overcurrent fault threshold

The optional VOC pin can be used to set the overcurrent fault threshold. An on-board 130 kΩ resistor between VOC and GND sets the default overcurrent fault threshold to approximately 200% of the nominal sensing range, and an external resistor can be added in parallel between VOC and GND to lower this threshold to between 50% and 200%. The following equation gives the value of this parallel resistor, ROC, in kΩ as a function of overcurrent fault threshold percentage P:

ROC=130kΩ⋅P197%–P

So for example, to set the overcurrent fault limit to 50% of the nominal sensing range, a 44 kΩ external resistor can be added between VOC and GND:

ROC=130kΩ⋅50%197%–50%≈44kΩ

As a shortcut, VOC can be connected directly to ground to set the overcurrent fault limit to 100% of the nominal sensing range.

The optional FAULT pin is normally at VDD and is pulled low when the IP current magnitude exceeds the set overcurrent fault threshold in either direction. This pin only asserts while the fault condition is present (it is not latched).

Note: The current version of the ACS37100 datasheet (2MB pdf) has several errors regarding VOC and FAULT:

1) The VOC table on page 14 lists VOC voltages that are half of what they should be. For example, the VOC voltage for 100% should be 1.322 V, not the listed value of 0.661 V. While not explicitly stated in the datasheet, the VOC pin is a 20 µA current source, which is how the VOC voltage gets set from the resistor between VOC and ground. Please keep this in mind if you choose to replace the resistor on the carrier board or apply a direct voltage to VOC to set the fault threshold.

2) The datasheet says FAULT is an open-drain pin, implying that an external pull-up resistor is required, but this is not the case. The IC actually has an internal 10 kΩ pull-up on this pin.

We manufacture these boards in-house at our Las Vegas facility, which gives us the flexibility to make these current sensors with custom default overcurrent fault thresholds. If you are interested in customization, please contact us.

Making connections to the board

You can insert the board into your current path in a variety of ways. For typical high-current applications, you can solder wires directly to the through-holes that best match your wires, or you can use solderless ring terminal connectors. The largest through-holes are big enough for 8 AWG wires or #8 or M4 screws, and the second-largest through-holes (and mounting holes) are sized for 14 AWG wires or #2 or M2 screws. Holes with 0.1″, 3.5 mm, and 5 mm spacing are also available as shown in the diagram above for connecting male header pins or terminal blocks, but please note that these connection options are generally not suitable for high currents and could limit the usable range of the sensor. The pictures below show examples of various connection options with the CT432/CT433 compact carrier, which has the same physical dimensions as the ACS37100 compact carrier.

Isolation rating and board creepage considerations

The ACS37100 has a manufacturer-rated isolation voltages of 1097 VRMS. The IC package has a creepage of 8 mm, and our carrier PCB has a routed slot under the IC that increases the PCB creepage to 9.3 mm. A rough rule of thumb is that uncontaminated FR4 PCBs should have roughly 1 mm of creepage per 100 VRMS of isolation. Please note that these carrier boards are not certified to any particular safety standard.

Warning: This product is generally intended for use below 30 V, and many of the application example pictures (e.g. use on a breadboard) are appropriate for such lower-voltage applications. These boards can be used at higher voltages, but working with higher voltages can be extremely dangerous and should only be attempted by qualified individuals with appropriate equipment and experience.

Schematic and dimension diagrams

Specifications

• Typical operating voltage : 3.3 V
• Current sense : 26.4 mV/A
• Minimum logic voltage : 3.0 V
• Maximum logic voltage : 3.6 V
• Supply current : 10 mA1
• Current range : -​50A to +50A (bidirectional 50A), 3.3V
• Current sensor : Allegro ACS37100LMATR-050B3

Documents:

• downloadable PDF (358k pdf)

Package Includes:

• 1 x Pololu 5477 ACS37100LMATR-050B3 TMR Current Sensor Compact Carrier -50A to +50A, 3.3V