AD7924 Analog Devices, AD7924 Datasheet - Page 18

AD7924

Manufacturer Part Number

AD7924

Description

4-Channel, 1 MSPS, 12-Bit A/D Converter with Sequencer in 16-Lead TSSOP

Manufacturer

Analog Devices

Datasheet

1.AD7904.pdf (32 pages)

Specifications of AD7924

Resolution (bits)

12bit

# Chan

Sample Rate

1MSPS

Interface

Ser,SPI

Analog Input Type

SE-Uni

Ain Range

Uni (Vref),Uni (Vref) x 2

Adc Architecture

SAR

Pkg Type

SOP

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AD7904/AD7914/AD7924

CIRCUIT INFORMATION

The AD7904/AD7914/AD7924 are, respectively, 8-bit, 10-bit,

and 12-bit, high speed, 4-channel, single-supply ADCs. The parts

can be operated from a 2.7 V to 5.25 V supply. When operated

from either a 5 V or 3 V supply, the AD7904/AD7914/AD7924

are capable of throughput rates of 1 MSPS when provided with

a 20 MHz clock.

The AD7904/AD7914/AD7924 provide the user with an on-chip

track-and-hold ADC and serial interface housed in a 16-lead

TSSOP package. The AD7904/AD7914/AD7924 each have four

single-ended input channels with a channel sequencer, allowing

the user to select a channel sequence through which the ADC

can cycle with each consecutive CS falling edge. The serial clock

input accesses data from the part, controls the transfer of data

written to the ADC, and provides the clock source for the succes-

sive approximation ADC. The analog input range for the AD7904/

AD7914/AD7924 is 0 V to REF

the status of Bit 1 in the control register. For the 0 V to 2 × REF

range, the part must be operated from a 4.75 V to 5.25 V supply.

The AD7904/AD7914/AD7924 provide flexible power management

options to allow the user to achieve the best power performance

for a given throughput rate. These options are selected by pro-

gramming the power management bits, PM1 and PM0, in the

control register.

CONVERTER OPERATION

The AD7904/AD7914/AD7924 are 8-, 10-, and 12-bit SAR ADCs,

respectively, based around a capacitive DAC. The AD7904/

AD7914/AD7924 can convert analog input signals in the range

of 0 V to REF

show simplified schematics of the ADC. The AD7904/AD7914/

AD7924 include control logic, the SAR ADC, and a capacitive

DAC, which are used to add and subtract fixed amounts of charge

from the sampling capacitor to bring the comparator back into

a balanced condition. Figure 13 shows the ADC during its

acquisition phase. SW2 is closed and SW1 is in Position A. The

comparator is held in a balanced condition and the sampling

capacitor acquires the signal on the selected V

When the ADC starts a conversion (see Figure 14), SW2 opens

and SW1 moves to position B, causing the comparator to

become unbalanced. The control logic and the capacitive DAC

are used to add and subtract fixed amounts of charge from the

sampling capacitor to bring the comparator back into a balanced

AGND

SW1

or 0 V to 2 × REF

Figure 13. ADC Acquisition Phase

4kΩ

SW2

or 0 V to 2 × REF

. Figure 13 and Figure 14

COMPARATOR

channel.

CAPACITIVE

, depending on

CONTROL

LOGIC

DAC

Rev. B | Page 18 of 32

condition. When the comparator is rebalanced, the conversion

is complete. The control logic generates the ADC output code.

Figure 16 and Figure 17 show the ADC transfer functions.

Analog Input

Figure 15 shows an equivalent circuit of the analog input structure

of the AD7904/AD7914/AD7924. The two diodes, D1 and D2,

provide ESD protection for the analog inputs. Care must be

taken to ensure that the analog input signal never exceeds the

supply rails by more than 200 mV. This will cause these diodes

to become forward-biased and start conducting current into the

substrate. The maximum current that these diodes can conduct

without causing irreversible damage to the part is 10 mA.

Capacitor C1 in Figure 15 is typically about 4 pF and can primarily

be attributed to pin capacitance. The resistor, R1, is a lumped

component made up of the on resistance of a track-and-hold

switch and the on resistance of the input multiplexer. The total

resistance is typically about 400 Ω. Capacitor C2 is the ADC

sampling capacitor and has a capacitance of 30 pF typically.

For ac applications, removing high frequency components from

the analog input signal is recommended by use of a low-pass RC

filter on the relevant analog input pin. In applications where

harmonic distortion and signal-to-noise ratio are critical, the

analog input should be driven from a low impedance source.

Large source impedances significantly affect the ac performance

of the ADC. This may necessitate the use of an input buffer

amplifier. The choice of the op amp is a function of the

particular application.

When no amplifier is used to drive the analog input, the source

impedance should be limited to low values. The maximum source

impedance depends on the amount of total harmonic distortion

(THD) that can be tolerated. The THD increases as the source

impedance increases, and performance will degrade (see Figure 8).

AGND

4pF

SW1

Figure 15. Equivalent Analog Input Circuit

Figure 14. ADC Conversion Phase

CONVERSION PHASE: SWITCH OPEN

TRACK PHASE: SWITCH CLOSED

4kΩ

SW2

COMPARATOR

30pF

CAPACITIVE

CONTROL

LOGIC

DAC

AD7924 Analog Devices, AD7924 Datasheet - Page 18

AD7924

Specifications of AD7924

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