SLVSEC9C September 2019 – February 2020 DRV8904-Q1 , DRV8906-Q1 , DRV8908-Q1 , DRV8910-Q1 , DRV8912-Q1
PRODUCTION DATA.
The DRV89XX-Q1 device can be connected in a daisy chain configuration to save GPIO ports when multiple devices are communicating to the same MCU. Figure 72 shows the topology when 3 devices are connected in series with waveforms.
The first device in the chain shown above receives data from the master controller in the following format. See SDI1 in Figure 72
After the data has been transmitted through the chain, the master controller receives it in the following format. See SDO3 in Figure 72
The Header bytes contain information of the number of devices connected in the chain, and a global clear fault command that will clear the fault registers of all the devices on the rising edge of the chip select (nSCS) signal. N5 through N0 are 6 bits dedicated to show the number of devices in the chain as shown in Figure 73. Up to 63 devices can be connected in series per daisy chain connection.
The 5 LSBs of the HDR2 register are don’t care bits that can be used by the MCU to determine integrity of the daisy chain connection. Header bytes must start with 1 and 0 for the two MSBs.
The Status byte provides information about the fault status register for each device in the daisy chain as shown in Figure 74. That way the master controller does not have to initiate a read command to read the fault status from any particular device. This saves the controller additional read commands and makes the system more efficient to determine fault conditions flagged in a device.
When data passes through a device, it determines the position of itself in the chain by counting the number of Status bytes it receives following by the first Header byte. For example, in this 3 device configuration, device 2 in the chain will receive two Status bytes before receiving HDR1 byte, followed by HDR2 byte.
From the two Status bytes it knows that its position is second in the chain, and from HDR2 byte it knows how many devices are connected in the chain. That way it only loads the relevant address and data byte in its buffer and bypasses the other bits. This protocol allows for faster communication without adding latency to the system for up to 63 devices in the chain.
The address and data bytes remain the same with respect to a single device connection. The Report bytes (R1 through R3), as shown in the figure above, is the content of the register being accessed.