DAC8718 Datasheet, PDF(44/60 Page) Texas Instruments – Octal, 16-Bit, Low-Power, High-Voltage Output, Serial Input DIGITAL-TO-ANALOG CONVERTER

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

DAC8718 Datasheet, PDF (44/60 Pages) Texas Instruments – Octal, 16-Bit, Low-Power, High-Voltage Output, Serial Input DIGITAL-TO-ANALOG CONVERTER

◁

DAC8718

SBAS467A â MAY 2009 â REVISED DECEMBER 2009

www.ti.com

MONITOR OUTPUT PIN (VMON)

The VMON pin is the channel monitor output. It can be either high-impedance or monitor any one of the DAC

outputs, auxiliary analog inputs, offset DAC outputs, or reference buffer outputs. The channel monitor function

consists of an analog multiplexer addressed via the serial interface, allowing any channel output, reference buffer

output, auxiliary analog inputs, or offset DAC output to be routed to the VMON pin for monitoring using an external

ADC. The monitor function is controlled by the Monitor Register, which allows the monitor output to be enabled

or disabled. When disabled, the monitor output is high-impedance; therefore, several monitor outputs may be

connected in parallel with only one enabled at a time.

Note that the multiplexer is implemented as a series of analog switches. Care should be taken to ensure the

maximum current from the VMON pin must not be greater than the given specification because this could

conceivably cause a large amount of current to flow from the input of the multiplexer (that is, from VOUT-X) to the

output of the multiplexer (VMON). Refer to the Monitor Register section and Table 12 for more details.

ANALOG INPUT PINS (AIN-0 and AIN-1)

Pins AIN-0 and AIN-1 are two analog inputs that directly connect to the analog mux of the analog monitor output.

When AIN-0 or AIN-1 is accessed, it is routed via the mux to the VMON pin. Thus, one external ADC channel can

monitor eight DACs plus two extra external analog signals, AIN-0 and AIN-1.

POWER-DOWN MODE

The DAC8718 is implemented with a power-down function to reduce power consumption. Either the entire device

or each individual group can be put into power-down mode. If the proper power-down bit (PD-x) in the

Configuration Register is set to '1', the individual group is put into power down mode. During power-down mode,

the analog outputs (VOUT-0 to VOUT-7) connect to AGND-X through an internal 15kÎ© resistor, and the output

buffer is in Hi-Z status. When the entire device is in power-down, the bus interface remains active in order to

continue communication and receive commands from the host controller, but all other circuits are powered down.

The host controller can wake the device from power-down mode and return to normal operation by clearing the

PD-x bit; it takes 200Î¼s or less for recovery to complete.

POWER-ON RESET SEQUENCING

The DAC8718 permanently latches the status of some of the digital pins at power-on. These digital levels should

be well-defined before or while the digital supply voltages are applied. Therefore, it is advised to have a pull up

resistor to IOVDD for the digital initialization pins (LDAC, CLR, RST, CS, and RSTSEL) to ensure that these levels

are set correctly while the digital supplies are raised.

For proper power-on initialization of the device, IOVDD and the digital pins must be applied before or at the same

time as DVDD. If possible, it is preferred that IOVDD and DVDD can be connected together in order to simplify the

supply sequencing requirements. Pull-up resistors should go to either supply. AVDD should be applied after the

digital supplies (IOVDD and DVDD) and digital initialization pins (LDAC, CLR, RST, CS, and RSTSEL). AVSS can

be applied at the same time as or after AVDD. The REF-x pins must be applied last.

Submit Documentation Feedback

Product Folder Link(s): DAC8718

▷