AD7769 Ver la hoja de datos (PDF) - Analog Devices
Número de pieza
componentes Descripción
Fabricante
AD7769 Datasheet PDF : 16 Pages
| |||
AD7769
Increased Resolution DAC Output
Since both VBIAS (DAC) and VSWING (DAC) are common to
both output channels, the full-scale output voltages of both
channels are nominally identical. However, by adding an exter-
nal op amp and scaling resistors, it is possible to attenuate the
full-scale output voltage of one (or both) of the DAC outputs to
effectively increase the output voltage resolution. Figure 25
shows channel A being attenuated using a resistor scaling of
10:1. The attenuated output voltage, VOUTA', is
VOUTA' = VBIAS + (VSWING/10)(2DA–1).
The output voltage of Channel B remains at
VOUTB = VBIAS + VSWING (2DB–1).
DA and DB are fractional representations of the DAC input
codes, e.g., DA = NA/256 and DB = NB/256. For example, with a
VSWING voltage level of 2 V, the Channel B output span is 4 V
with an LSB size of 15.6 mV and (attenuated) Channel A out-
put span is 400 mV with an LSB size of 1.56 mV. Changing the
resistor scaling in Figure 25 obviously changes the attenuated
full-scale output.
DAC A can be programmed to produce an interpolation func-
tion between the 8-bit steps of DAC B to allow, for example,
very smooth velocity profile waveforms to be generated.
Servo Offset Facility
Most dedicated servo disk drives offer an offset facility whereby
some small voltage is injected into the track-following loop. The
purpose of the offset is to move the head to the right or left of its
current on-track position to permit reading of off-track data.
The circuit is shown in Figure 27. With the 10:1 resistor scaling
used in the circuit the output voltage, VOUT, is
VOUT = VPE + (VSWING/10) (2DA–1).
Figure 25. Increasing the DAC Output Voltage Resolution
A single change to the circuit Figure 25 allows the two DAC
outputs to be combined to provide a single analog output with
resolution beyond the standard 8-bits. Figure 26 shows the rear-
ranged circuit. The composite output, VOUT, is
VOUT = VOUTB + (VSWING/10)(2DA–1)
or
VOUT = VBIAS + VSWING (2DB–1) + (VSWING/10) (2DA–1).
Figure 27. Servo Offset Facility
With no offset added, VOUT = VPE, where VPE is the position
error voltage which the servo loop normally drives to its zero
level, VBIAS. When an offset voltage is supplied by DAC A, the
action of the servo is to move the head away from its current
on-track position until the position error voltage is equal and
opposite to the offset voltage. The position of the head about
the track centre is thus programmable.
Programmable Full-Scale Range
The output voltage span of both DACs is determined by the
VSWING (DAC) voltage level. This is normally supplied from
some fixed voltage source. However, it is possible to use one of
the DAC channels to generate a programmable VSWING voltage
level. The remaining channel will thus have a full-scale range
and LSB size which is software programmable. This circuit is
shown in Figure 28 where VOUTB is used in an implicit feedback
loop to generate a programmable swing voltage, VSWING (DAC),
for the AD7769 from an external fixed input swing voltage,
VSWING. Using the 5:1 resistor scaling shown in Figure 28, the
expression for the AD7669 input swing voltage is
( ) VSWING (DAC)
=
V SWING
1– 2DB –1
.
5
Figure 26. Combined VOUTA, VOUTB Circuit
–14–
REV. A
Share Link: 