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INA226: INA226 circuit questions

Part Number: INA226
Other Parts Discussed in Thread: ISO1540, ISOW7844

Hi team,

The customer is using INA226. The schematic is in the attachment. VBUS pin is not used and it is floating.

The load is the 14K resistance R1. Rshunt is RA1 and it is 0.07ohm. The current that is measured is 7.1mA.

JA1 is a relay. If the voltage is add to 11 pin and 14 pin, the internal switch of the relay will be closed.

For INA226, the Calibration Register value is 0x0725. The Mask/Enable Register value is 0x0003.

Case 1: 100V is connected to IN1 and OUT1 is connected to GND.   The internal switch of the relay JA1 is closed. 

Then the Shunt Voltage Register can be get the voltage and the voltage is 0.07ohm x 7.1mA = 0.497mV.

The Mask/Enable Register is 0x000B. The Calibration Register value is 0x0725.  For case 1, it is fine.

Case 2: On case 1 basis, then the customer changes  IN1 to be connected to GND and OUT1 to be connected to 100V.
Then  the internal switch of the relay JA1 is off. The Shunt Voltage Register  can also be get the voltage.
But the voltage is 0. The Mask/Enable Register is 0x0008. The Calibration Register value is 0x0000.
For the case 2, Maybe the Calibration Register reset, then  the internal switch of the relay JA1 is off.
Q1: Is the customer's schematic is correct? Can VBUS pin be floating? Can 100V be connected to IN+ pin or IN- pin?
Q2: For case 2, why is the Calibration Register value  0x0000?
Is the Calibration Register reset to lead the internal switch of the relay JA1 is off?

Q3: For case 2, IN1 to is connected to GND and OUT1 to is connected to 100V. Is this correct?

Best Wishes,
Mickey Zhang
Asia Customer Support Center
Texas Instruments

  • Hi Mickey,

    100V into the INA226, it is completely out of spec… but we might be able to find a workaround for that with a bit of thinking.

    So, as far as I understand, no voltage readings are required, only current. So given you are doing a high side sensing, your customer requires a separate power supply to feed the INA226 with respect to IN1, that, I suppose, sits at said 100V. So, measured from GND, IN1 will be at 100V and the INA226 VCC will be 103.3V. The inputs of the INA226 will only see a low side common mode measurement with the voltage developed across RA1 rather than the 100V of the supply. Please let me know if this is clear or you need me to explain further.

    The drawbacks:

    • You need a separate DC-DC converter and a digital isolator for the I2C line because the INA226 is referenced to IN1 and not GND.
    • If power consumption is not an issue you could also use a series resistor/shunt regulator to regulate just below the rail (96.7V). In this case you skip the DC-DC converter cost, but a digital isolator is still required. The INA226 will see this as a high side measurement with the differential input being (3.3V-VRA1) which is close to 3.3V.
    • We do have a board on the works that uses our new device, the ISOW7844 which is a DC-DC converter and digital isolator in one package. This makes for a very compact package, but it is pricey, so you would have to tell me if you have preference for cost or solution size. For all other instances of the digital isolator above I am referring to the ISO1540, in case you want to check.

    We also have a reference design, that explains how to  use an OPAMP to create a current source based on the voltage developed across the high side resistor. and hence shift the high side current measurement to a potential close to GND, so that the device can stay referenced to GND, thus not requiring an additional power supply or level shifting isolation, at the expense of some extra circuit complexity, power dissipation and board layout. You can find it here.

    So it all depends on what your circuit requirements are (preference for cost, complexity or solution size), but I trust I provided a few ideas that will guide you on the right path.

    As always, please feel free to left us know should you require further assistance.