Hardware and physical integration guideline PCR Sensor A111
Page 6 of 32
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2022-03-08
2 HW Integration - Schematics
2.1 Power
The A111 is powered by 1.8 V and all the control signals and the SPI interface are 1.8 V pins. It must
therefore be ensured that all host MCU pins connected to the A111 are at 1.8 V. If this is not the case,
level-shifters must be used in between the A111 and the host MCU.
As mentioned in the power consumption summary of the A111 datasheet, the A111 consumes
typically 66 µA when the ENABLE pin is set low. If the leakage current is to be even further reduced,
the power to the A111 must be switched off. It can be achieved either by using a low-leakage power
regulator with an enable/disable function (if 1.8 V is not available in the system) or a low-leakage
power switch in between the two 1.8 V domains. In both cases, a control signal, PMU_ENABLE, is
needed. See Figure 3 for details.
Figure 3. Block diagram of how to connect a Power Management Unit for controlling the 1.8V to the A111.
If the power to the A111 is switched off in between sweeps it is important that the control signals and
SPI interface are pulled low during this time, otherwise reverse leakage will occur via the ESD diodes
in the A111. If it is not possible to set the SPI interface in such a state (either via SW or by configuring
any level-shifters that might be used in the design), the problem can be solved by adding a power
switch only to VIO1 and VIO2. This way the leakage will be significantly lower than 66 µA, but the
control signals and SPI interface of A111 will still be supplied by 1.8 V and thus no reverse leakage
will occur. See Figure 4 for details. The Acconeer High Performance Module shows how to integrate a
power switch into the design, refer to the
