AD7457 Analog Devices, AD7457 Datasheet - Page 13
AD7457
Manufacturer Part Number
AD7457
Description
Pseudo Differential Input, 100 kSPS, 12-Bit ADC in 8-Lead SOT-23
Manufacturer
Analog Devices
Datasheet
1.AD7457.pdf
(20 pages)
Specifications of AD7457
Resolution (bits)
12bit
# Chan
1
Sample Rate
100kSPS
Interface
Ser,SPI
Analog Input Type
Diff-Uni
Ain Range
(Vref) p-p
Adc Architecture
SAR
Pkg Type
SOT
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
AD7457BRTZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Figure 21 shows a graph of THD vs. analog input frequency for
various supply voltages, while sampling at 100 kSPS with an
SCLK of 10 MHz. In this case, the source impedance is 10 Ω.
DIGITAL INPUTS
The digital inputs applied to the AD7457 are not limited by the
maximum ratings that limit the analog inputs. Instead, the digital
inputs applied, that is, CS and SCLK, can go to 7 V and are not
restricted by the V
The main advantage of the inputs not being restricted to the
V
avoided. If CS or SCLK are applied before V
of latch-up as there would be on the analog inputs if a signal
greater than 0.3 V were applied prior to V
REFERENCE SECTION
An external source is required to supply the reference to the
AD7457. This reference input can range from 100 mV to V
The specified reference is 2.50 V for the power supply range
2.70 V to 5.25 V. Errors in the reference source result in gain
errors in the AD7457 transfer function. A capacitor of at least
Figure 20. THD vs. Analog Input Frequency for Various Source Impedances
DD
Figure 21. THD vs. Analog Input Frequency for Various Supply Voltages
+ 0.3 V limit is that power supply sequencing issues are
–50
–60
–70
–80
–90
–50
–55
–60
–65
–70
–75
–80
–85
–90
10
10
200 Ω
DD
+ 0.3 V limits as on the analog input.
INPUT FREQUENCY (kHz)
INPUT FREQUENCY (kHz)
V
DD
20
20
10 Ω
= 4.75V
V
DD
100 Ω
= 3.6V
V
DD
V
DD
30
30
DD
= 5.25V
= 2.7V
DD
.
62 Ω
, there is no risk
T
T
40
40
A
A
= 25 ° C
= 25 ° C
50
50
DD
Rev. A | Page 13 of 20
.
0.33 µF should be placed on the V
sources for the AD7457 include the AD780 and the ADR421.
Figure 22 shows a typical connection diagram for the V
SERIAL INTERFACE
Figure 2 shows a detailed timing diagram of the serial interface
of the AD7457. The serial clock provides the conversion clock
and also controls the transfer of data from the device during
conversions.
The falling edge of CS powers up the AD7457 and also puts the
track-and-hold into track. Power-up time is 1 µs minimum and,
in this time, the device also acquires the analog input signal. CS
must remain low for the duration of power-up. The rising edge
of CS initiates the conversion process, puts the track-and-hold
into hold mode, and takes the serial data bus out of three-state.
The conversion requires 16 SCLK cycles to complete.
On the sixteenth SCLK falling edge, after the time t
data bus goes back into three-state and the device automatically
enters full power-down. It remains in power-down until the
next falling edge of CS . For specified performance, the through-
put rate should not exceed 100 kSPS, which means that there
should be no less than 10 µs between consecutive CS falling
edges.
The conversion result from the AD7457 is provided on the
SDATA output as a serial data stream. The bits are clocked out
on the falling edge of the SCLK input. The data stream of the
AD7457 consists of four leading zeros, followed by the 12 bits of
conversion data that are provided MSB first. The output coding
is straight (natural) binary.
Sixteen serial clock cycles are, therefore, required to perform a
conversion and to access data from the AD7457. A rising edge
of CS provides the first leading zero to be read in by the micro-
controller or DSP. The remaining data is then clocked out on
the subsequent SCLK falling edges, beginning with the second
leading zero. Thus, the first falling clock edge on the serial clock
after CS has gone high provides the second leading zero. The
final bit in the data transfer, before the device goes into power-
down, is valid on the sixteenth falling edge of SCLK, having
been clocked out on the previous (fifteenth) falling edge.
V
1
ADDITIONAL PINS OMITTED FOR CLARITY.
DD
0.1µF
Figure 22. Typical V
10µF
0.1µF
NC
REF
1
2
3
4
Connection Diagram for V
NC = NO CONNECT
TEMP
GND
V
IN
AD780
OPSEL
V
TRIM
REF
OUT
pin. Suitable reference
8
7
6
5
2.5V
NC
NC
NC
DD
AD7457
8
= 5 V
, the serial
AD7457
0.33µF
REF
V
1
pin.
V
REF
DD
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