The ADS8588H allows two sets of analog input channels to be simultaneously sampled. In order to do so, the CONVSTA and CONVSTB signals must be separate control inputs (as shown in Figure 7-17) and the device must not operate in any oversampling mode. Electrical grid relay protection is an application that can benefit from being able to sample the inputs in two groups. The delay of the signal through the voltage channels is often different from the delay on the channels measuring current. The difference in delay created by the voltage and current signal paths can be corrected by adjusting the sampling of the two groups of inputs (voltage and current) to the device.
The timing diagram in Figure 7-17 shows the sequence of events described in this section.
There are four events that describe the internal operation of the device when pairs of input channels are simultaneously sampled and the data are read back. These events are:
- Event 1(a): A rising edge on the CONVSTA signal initiates simultaneous sampling of the first set of analog input channels (channels 1-4 for the ADS8588H). The sampling circuits on the first set of analog input channels enter hold mode and the input signals on these channels are sampled at the same instant. The ADC does not begin conversion until the input signals on the second set of channels are sampled.
- Event 1(b): A rising edge on the
CONVSTB signal initiates simultaneous sampling of the second set of analog input
channels (channels 5-8 for the ADS8588H). The sampling circuits
for the second set of analog input channels enter hold mode and the input
signals on these channels are sampled at the same instant. When the rising edges
of both the CONVSTA and CONVSTB signals have occurred, the ADC converts all
sampled signals using a precise, on-chip oscillator clock. At the beginning of
the conversion phase of the ADC, the BUSY output goes high and remains high
through a maximum-specified conversion time of tCONV (see the
Timing Requirements: CONVST ControlTiming Requirements: CONVST Control table).
- Event 2: Same as event 2 in the
Simultaneous Sampling on All Input Channels section.
- Event 3: Same as event 3 in the
Simultaneous Sampling on All Input Channels section.
- Event 4: Same as event 4 in the
Simultaneous Sampling on All Input Channels section.
Events 1(a), 1(b), and 2 are common to all interface modes of operation (parallel, serial, or parallel byte).