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DAC8541 Datasheet, PDF (14/21 Pages) Texas Instruments – 16-BIT SINGLE CHANNEL, PARALLEL INPUT DIGITAL-TO-ANALOG CONVERTER WITH RAIL VOLTAGE OUTPUT
DAC8541
SLAS353 − DECEMBER 2001
THEORY OF OPERATION
resistor string
The resistor string section is shown in Figure 30. It is simply a string of resistors, each of which has a value of
R. The code loaded into the DAC register determines at which node on the string the voltage is tapped off. This
voltage is then presented to the output amplifier by closing one of the switches connecting the string to the
amplifier. The negative tap of the resistor string, VREFL, can be tied to AGND or a small voltage can be applied
in order to make minor adjustments to the offset seen at the VOUT pin. (This is discussed in more detail in the
voltage reference inputs section.)
output amplifier
The output buffer amplifier is capable of generating near rail-to-rail voltages on its output, which gives an output
range of 0 V to AVDD (offset and gain errors affect the absolute VOUT range). It is also capable of driving a load
of 2 kΩ in parallel with 1000 pF to AGND while remaining stable. The source and sink capabilities of the output
amplifier can be seen in the typical curves. The slew rate of the DAC8541 is typically 1 V/µs with a typical
full-scale settling time of 8 µs.
For additional functionality, the inverting input of the output amplifier is brought out via the VOUTSense pin. This
allows for better accuracy in critical applications by tying the VOUTSense and VOUT together directly at the load.
Other signal conditioning circuitry may also be connected between these points for specific applications.
parallel interface
The DAC8541 provides a 16-bit parallel interface and supports both writing to and reading from the DAC input
register. (See the timing characteristics section for detailed information for a typical write or read command.)
In addition to the data, CS, and R/W inputs, the DAC8541’s interface also provides powerdown, LDAC, data
format, and reset/reset-select control. Tables 1 and 2 show the control signal actions and data format,
respectively. These features are discussed in more detail in the remaining sections.
Table 1. DAC8541 CONTROL SIGNAL SUMMARY
CS R/W BTC/USB LDAC RST RSTSEL PD1 PD0
ACTION
H
X
X
X
X
X
X
X Device data I/O is disabled on the bus.†
↓
L
X
X
H,L
X
L
L Write initiated, present input data to the bus.
↓
H
X
X
H,L
X
L
L Read initiated, data from input register is presented to data bus.
↑
X
X
X
H,L
X
L
L Input data is latched when writing to the device.
X
X
X
X
X
L
↑
H,L
X
X
X
X
L
L Data from input register is transferred to DAC register and VOUT is
updated.
X
X Input/output data format is unipolar straight binary.
X
X
H
X
X
X
X
X Input/output data format is binary 2s complement.
X
X
X
X
↑
L
L
L DAC register and VOUT reset to min-scale. (If DAC is powered down
during reset, DAC register resets and VOUT will settle to min-scale
upon power up.)
X
X
X
X
↑
H
L
L DAC register and VOUT reset to mid-scale. (If DAC is powered down
during reset, DAC register resets and VOUT will settle to mid-scale
upon power up.)
X
X
X
X
X
X
L
H Powerdown device, VOUT impedance equals 1 kΩ to AGND
X
X
X
X
X
X
H
L Powerdown device, VOUT impedance equals 100 kΩ to AGND
X
X
X
X
X
X
H
H Powerdown device, VOUT impedance equals high impedance
† Only disables 16-bit data I/O interface. Other control lines remain active.
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