ad7472bru-reel7 Analog Devices, Inc., ad7472bru-reel7 Datasheet - Page 11
ad7472bru-reel7
Manufacturer Part Number
ad7472bru-reel7
Description
1.75 Msps, 4 Mw 10-bit /12-bit Parallel Adcs
Manufacturer
Analog Devices, Inc.
Datasheet
1.AD7472BRU-REEL7.pdf
(20 pages)
ADC TRANSFER FUNCTION
The output coding of the AD7470/AD7472 is straight binary.
The designed code transitions occur midway between succes-
sive integer LSB values (0.5 LSB, 1.5 LSB, etc). The LSB
size is equal to (REF IN)/4096 for the AD7472 and to (REF
IN)/1024 for the AD7470. The ideal transfer characteristic for
the AD7472 is shown in Figure 6.
AC ACQUISITION TIME
In ac applications it is recommended to always buffer analog
input signals. The source impedance of the drive circuitry must
be kept as low as possible to minimize the acquisition time of
the ADC. Large values of impedance at the V
will cause the THD to degrade at high input frequencies.
The AD8021, AD8047, AD8051, AD9631, and AD797 are
some of the op amps that could be used to buffer the analog
input. Figure 7 shows the AD7470/AD7472 performance for
some of those recommended input buffers.
Reference Input
The following references are best suited for use with the
AD7470/AD7472.
For optimum performance, a 2.5 V reference is recommended.
The parts can function with a reference up to 3 V and down to
2 V, but the performance deteriorates.
REV. B
ADR291
AD780
REF192
ADR421
INPUT
BUFFERS
AD8047
AD9631
AD8051
AD797
Figure 6. Transfer Characteristic for 12 Bits
Figure 7. Recommended Input Buffers
111...111
111...110
111...000
011...111
000...010
000...001
000...000
0V 0.5LSB
SNR
500kHz
SPECIFICATIONS
PERFORMANCE
AD7470/AD7472
70
69.5
68.6
70
DYNAMIC
THD
500kHz
ANALOG INPUT
78
80
78
84
1LSB = V
V
REF
TYPICAL AMPLIFIER
CURRENT
CONSUMPTION
–1.5LSB
5.8mA
17mA
4.4mA
8.2mA
REF
/4096
IN
pin of the ADC
–11–
DC ACQUISITION TIME
The ADC starts a new acquisition phase at the end of a conver-
sion and ends it on the falling edge of the CONVST signal. At
the end of conversion there is a settling time associated with the
sampling circuit. This settling time lasts approximately 135 ns.
The analog signal on V
settling time; therefore, the minimum acquisition time needed is
approximately 135 ns.
Figure 8 shows the equivalent charging circuit for the sampling
capacitor when the ADC is in its acquisition phase. R3 repre-
sents the source impedance of a buffer amplifier or resistive
network, R1 is an internal switch resistance, R2 is for bandwidth
control, and C1 is the sampling capacitor. C2 is back-plate
capacitance and switch parasitic capacitance.
During the acquisition phase the sampling capacitor must be
charged to within ± 1 LSB of its final value.
ANALOG INPUT
Figure 9 shows the equivalent circuit of the analog input struc-
ture of the AD7470/AD7472. The two diodes, D1 and D2,
provide ESD protection for the analog inputs. The capacitor C3
is typically about 4 pF and can be primarily attributed to pin
capacitance. The resistor R1 is an internal switch resistance.
This resistor is typically about 125 Ω. The capacitor C1 is the
sampling capacitor, while R2 is used for bandwidth control.
CLOCK SOURCES
The max CLK specification for the AD7470 is 30 MHz, and for
the AD7472, it is 26 MHz. These frequencies are not standard
off-the-shelf oscillator frequencies. Many manufacturers pro-
duce oscillator modules close to these frequencies; a typical one
being 25.175 MHz from IQD Limited. AEL Crystals Limited
produces a 25 MHz oscillator module in various packages. Crys-
tal oscillator manufacturers will produce 26 MHz and 30 MHz
oscillators to order. Of course any clock source can be used, not
just crystal oscillators.
Figure 9. Equivalent Analog Input Circuit
V
IN
Figure 8. Equivalent Sampling Circuit
R3
4pF
C3
V
DD
V
IN
IN
D1
D2
is also being acquired during this
125
125
R1
R1
AD7470/AD7472
8pF
8pF
C2
C2
22pF
22pF
C1
C1
636
R2
636
R2
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