AD7792/AD7793
Rev. B | Page 14 of 32
ON-CHIP REGISTERS
The ADC is controlled and configured via a number of on-chip
registers, which are described on the following pages. In the
following descriptions, set implies a Logic 1 state and cleared
implies a Logic 0 state, unless otherwise stated.
COMMUNICATIONS REGISTER
RS2, RS1, RS0 = 0, 0, 0
The communications register is an 8-bit write-only register. All
communications to the part must start with a write operation to
the communications register. The data written to the
communications register determines whether the next
operation is a read or write operation, and to which register this
operation takes place. For read or write operations, once the
subsequent read or write operation to the selected register is
complete, the interface returns to where it expects a write
operation to the communications register. This is the default
state of the interface and, on power-up or after a reset, the ADC
is in this default state waiting for a write operation to the
communications register. In situations where the interface
sequence is lost, a write operation of at least 32 serial clock
cycles with DIN high returns the ADC to this default state by
resetting the entire part.
Tabl e 11 outlines the bit designations
for the communications register. CR0 through CR7 indicate the
bit location, CR denoting the bits are in the communications
register. CR7 denotes the first bit of the data stream. The
number in parentheses indicates the power-on/reset default
status of that bit.
CR7 CR6 CR5 CR4 CR3 CR2 CR1 CR0
WEN(0) R/W(0)
RS2(0) RS1(0) RS0(0) CREAD(0) 0(0) 0(0)
Table 11. Communications Register Bit Designations
Bit Location Bit Name Description
CR7
WEN Write Enable Bit. A 0 must be written to this bit so that the write to the communications register actually
occurs. If a 1 is the first bit written, the part does not clock on to subsequent bits in the register. It stays at this
bit location until a 0 is written to this bit. Once a 0 is written to the
WEN bit, the next seven bits are loaded to
the communications register.
CR6
R/
W A 0 in this bit location indicates that the next operation is a write to a specified register. A 1 in this position
indicates that the next operation is a read from the designated register.
CR5 to CR3
RS2 to
RS0
Register Address Bits. These address bits are used to select which of the ADC’s registers are being selected
during this serial interface communication. See
Table 12.
CR2 CREAD
Continuous Read of the Data Register. When this bit is set to 1 (and the data register is selected), the serial
interface is configured so that the data register can be continuously read. For example, the contents of the
data register are placed on the DOUT pin automatically when the SCLK pulses are applied after the
RDY pin
goes low to indicate that a conversion is complete. The communications register does not have to be written
to for data reads. To enable continuous read mode, the instruction 01011100 must be written to the
communications register. To exit the continuous read mode, the instruction 01011000 must be written to the
communications register while the
RDY pin is low. While in continuous read mode, the ADC monitors activity
on the DIN line so that it can receive the instruction to exit continuous read mode. Additionally, a reset occurs
if 32 consecutive 1s are seen on DIN. Therefore, DIN should be held low in continuous read mode until an
instruction is to be written to the device.
CR1 to CR0 0 These bits must be programmed to Logic 0 for correct operation.
Table 12. Register Selection
RS2 RS1 RS0 Register Register Size
0 0 0 Communications Register During a Write Operation 8-bit
0 0 0 Status Register During a Read Operation 8-bit
0 0 1 Mode Register 16-bit
0 1 0 Configuration Register 16-bit
0 1 1 Data Register 16-/24-bit
1 0 0 ID Register 8-bit
1 0 1 IO Register 8-bit
1 1 0 Offset Register 16-bit (AD7792)/24-bit (AD7793)
1 1 1 Full-Scale Register 16-bit (AD7792)/24-bit (AD7793)