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AD5541 データシートの表示(PDF) - Analog Devices

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AD5541 Datasheet PDF : 20 Pages
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Data Sheet
THEORY OF OPERATION
The AD5541/AD5542 are single, 16-bit, serial input, voltage
output DACs. They operate from a single supply ranging from
2.7 V to 5.5 V and consume typically 125 µA with a supply of
5 V. Data is written to these devices in a 16-bit word format,
via a 3- or 4-wire serial interface. To ensure a known power-up
state, these parts are designed with a power-on reset function.
In unipolar mode, the output is reset to 0 V; in bipolar mode,
the AD5542 output is set to −VREF. Kelvin sense connections for
the reference and analog ground are included on the AD5542.
DIGITAL-TO-ANALOG SECTION
The DAC architecture consists of two matched DAC sections.
A simplified circuit diagram is shown in Figure 22. The DAC
architecture of the AD5541/AD5542 is segmented. The four
MSBs of the 16-bit data-word are decoded to drive 15 switches,
E1 to E15. Each switch connects one of 15 matched resistors to
either AGND or VREF. The remaining 12 bits of the data-word
drive switches S0 to S11 of a 12-bit voltage mode R-2R ladder
network.
R
R
VOUT
VREF
2R 2R
S0
2R . . . . . 2R
S1 . . . . . S11
2R
2R . . . . . 2R
E1
E2 . . . . . E15
12-BIT R-2R LADDER
FOUR MSBs DECODED
INTO 15 EQUAL SEGMENTS
Figure 22. DAC Architecture
With this type of DAC configuration, the output impedance
is independent of code, while the input impedance seen by
the reference is heavily code dependent. The output voltage is
dependent on the reference voltage, as shown in the following
equation:
VOUT
=
VREF ×
2N
D
where:
D is the decimal data-word loaded to the DAC register.
N is the resolution of the DAC.
For a reference of 2.5 V, the equation simplifies to the following:
2.5 × D
VOUT = 65,536
This gives a VOUT of 1.25 V with midscale loaded and 2.5 V with
full-scale loaded to the DAC.
The LSB size is VREF/65,536.
AD5541/AD5542
SERIAL INTERFACE
The AD5541/AD5542 are controlled by a versatile 3- or 4-wire
serial interface that operates at clock rates up to 25 MHz and is
compatible with SPI, QSPI, MICROWIRE, and DSP interface
standards. The timing diagram is shown in Figure 3. Input data
is framed by the chip select input, CS. After a high-to-low
transition on CS, data is shifted synchronously and latched into
the input register on the rising edge of the serial clock, SCLK.
Data is loaded MSB first in 16-bit words. After 16 data bits have
been loaded into the serial input register, a low-to-high transition
on CS transfers the contents of the shift register to the DAC. Data
can be loaded to the part only while CS is low.
The AD5542 has an LDAC function that allows the DAC latch
to be updated asynchronously by bringing LDAC low after CS
goes high. LDAC should be maintained high while data is written
to the shift register. Alternatively, LDAC can be tied perma-
nently low to update the DAC synchronously. With LDAC tied
permanently low, the rising edge of CS loads the data to the DAC.
UNIPOLAR OUTPUT OPERATION
These DACs are capable of driving unbuffered loads of 60 kΩ.
Unbuffered operation results in low supply current, typically
300 μA, and a low offset error. The AD5541 provides a unipolar
output swing ranging from 0 V to VREF. The AD5542 can be
configured to output both unipolar and bipolar voltages. Figure 23
shows a typical unipolar output voltage circuit. The code table
for this mode of operation is shown in Table 7.
5V 2.5V
10µF
0.1µF
0.1µF
SERIAL
INTERFACE
VDD REF(REFF*) REFS*
CS
DIN AD5541/AD5542 OUT
SCLK
LDAC*
DGND
AGND
AD820/
OP196
UNIPOLAR
OUTPUT
EXTERNAL
OP AMP
*AD5542 ONLY.
Figure 23. Unipolar Output
Table 7. Unipolar Code Table
DAC Latch Contents
MSB
LSB
Analog Output
1111 1111 1111 1111
1000 0000 0000 0000
0000 0000 0000 0001
0000 0000 0000 0000
VREF × (65,535/65,536)
VREF × (32,768/65,536) = ½ VREF
VREF × (1/65,536)
0V
Rev. F | Page 11 of 20

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