Texas Instruments DAC7631EVM Evaluation Module DAC7631EVM DAC7631EVM 데이터 시트
제품 코드
DAC7631EVM
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7.2
Host Processor Interface
7.3
EVM Stacking
7.4
The Output Operational Amplifier
EVM Operation
The host processor drives the DAC. The DAC's proper operation depends on the successful configuration
between the host processor and the EVM board. In addition, a properly written code is also required to
operate the DAC.
between the host processor and the EVM board. In addition, a properly written code is also required to
operate the DAC.
A custom cable can be made specific to the host interface platform. The EVM allows interface to the host
processor through J2 header connector for the serial control signals and the serial data input. The output
can be monitored through the J4 header connector.
processor through J2 header connector for the serial control signals and the serial data input. The output
can be monitored through the J4 header connector.
An interface adapter card is also available for a specific TI DSP starter kit as well as an MSP430-based
microprocessor as mentioned in section 1 of this manual. Using the interface card alleviates the task of
building customize cables and allows easy configuration of a simple evaluation system.
microprocessor as mentioned in section 1 of this manual. Using the interface card alleviates the task of
building customize cables and allows easy configuration of a simple evaluation system.
This DAC EVM interfaces with any host processor capable of handling serial communication protocols or
the popular TI DSP. For more information regarding the serial interface of the particular DAC installed, see
the specific DAC data sheet, as listed in the Related Documentation from Texas Instruments section of
this user’s guide.
the popular TI DSP. For more information regarding the serial interface of the particular DAC installed, see
the specific DAC data sheet, as listed in the Related Documentation from Texas Instruments section of
this user’s guide.
Stacking of the EVM is possible if there is a need to evaluate two DAC7631 to yield a total of two channel
outputs. A maximum of two DAC7631 EVMs are allowed because the output terminal, J4, dictates the
number of DAC channels that can be connected without the outputs colliding.
outputs. A maximum of two DAC7631 EVMs are allowed because the output terminal, J4, dictates the
number of DAC channels that can be connected without the outputs colliding.
shows how the DAC
output channels are mapped into the output terminal, J4, with respect to the jumper position of W2.
Table 3. DAC7631 Output Channel Mapping
Reference
Jumper Position
Function
1-2
DAC7631 output (V
OUT
) is routed to J4-2.
W2
2-3
DAC7631 output (V
OUT
) is routed to J4-4.
The EVM includes an optional signal conditioning circuit for the DAC output through an external
operational amplifier, U2. Only one DAC output channel can be monitored at any given time for evaluation
because the odd numbered pins (J4-1 and J4-3) are tied together. The output operational amplifier is set
to unity gain configuration by default. Nevertheless, the raw outputs of the DAC can be probed through the
even pins of the output terminal J4, which also provides mechanical stability when stacking or plugging
into any interface card. In addition, it provides easy access for monitoring up to two DAC channels when
stacking two DAC7631 EVMs together; see the EVM Stacking section.
operational amplifier, U2. Only one DAC output channel can be monitored at any given time for evaluation
because the odd numbered pins (J4-1 and J4-3) are tied together. The output operational amplifier is set
to unity gain configuration by default. Nevertheless, the raw outputs of the DAC can be probed through the
even pins of the output terminal J4, which also provides mechanical stability when stacking or plugging
into any interface card. In addition, it provides easy access for monitoring up to two DAC channels when
stacking two DAC7631 EVMs together; see the EVM Stacking section.
The inverting input of U2 can be tied to AGND (via W15) or the DAC output (by shorting pins 1 and 2 of
the J5 header) or to any voltage source through J5-1.
the J5 header) or to any voltage source through J5-1.
The following sections describe the different configurations of the output amplifier, U2.
7.4.1
Unity Gain Output (Default Configuration)
The buffered output configuration can be used to prevent loading the DAC though it may present some
slight distortion because of the feedback resistor and capacitor. The user can tailor the feedback circuit to
closely match their desired wave shape by simply removing R6 and C12 and replacing it with the desired
values. The user can also remove R6 and C12 and solder a 0-
slight distortion because of the feedback resistor and capacitor. The user can tailor the feedback circuit to
closely match their desired wave shape by simply removing R6 and C12 and replacing it with the desired
values. The user can also remove R6 and C12 and solder a 0-
Ω
resistor in place of R6.
Table 12 shows the jumper setting for the unity gain configuration of the DAC external output buffer in
unipolar or bipolar supply mode.
unipolar or bipolar supply mode.
SLAU148 – January 2005
11
DAC7631EVM