EVAL-AD7665CBZ Analog Devices Inc, EVAL-AD7665CBZ Datasheet - Page 12

EVAL-AD7665CBZ

Manufacturer Part Number

EVAL-AD7665CBZ

Description

BOARD EVALUATION FOR AD7665

Manufacturer

Analog Devices Inc

Series

PulSAR®r

Datasheets

1.AD7665ASTZRL.pdf (23 pages)

2.EVAL-AD7674CB.pdf (22 pages)

Specifications of EVAL-AD7665CBZ

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

570k

Data Interface

Serial, Parallel

Inputs Per Adc

4 Single Ended

Input Range

±4 REF

Power (typ) @ Conditions

93mW @ 570kSPS

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

AD7665

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AD7665

CIRCUIT INFORMATION

The AD7665 is a fast, low power, single-supply, precise 16-bit

analog-to-digital converter (ADC). The AD7665 features different

modes to optimize performances according to the applications.

In Warp Mode, the AD7665 is capable of converting 570,000

samples per second (570 kSPS).

The AD7665 provides the user with an on-chip track-and-hold,

successive approximation ADC that does not exhibit any pipeline

or latency, making it ideal for multiple multiplexed channel

applications.

It is specified to operate with both bipolar and unipolar input

ranges by changing the connection of its input resistive scaler.

The AD7665 can be operated from a single 5 V supply and be

interfaced to either 5 V or 3 V digital logic. It is housed in a

48-lead LQFP package or a 48-lead LFCSP package that com-

bines space savings and flexible configurations as either serial

or parallel interface. The AD7665 is a pin-to-pin compatible

upgrade of the AD7663 and AD7664.

CONVERTER OPERATION

The AD7665 is a successive approximation analog-to-digital

converter based on a charge redistribution DAC. Figure 3 shows

the simplified schematic of the ADC. The input analog signal is

first scaled down and level shifted by the internal input resistive

scaler, which allows both unipolar ranges (0 V to 2.5 V, 0 V to 5 V,

and 0 V to 10 V) and bipolar ranges (±2.5 V, ±5 V, and ±10 V). The

output voltage range of the resistive scaler is always 0 V to 2.5 V.

The capacitive DAC consists of an array of 16 binary weighted

capacitors and an additional “LSB” capacitor. The comparator’s

negative input is connected to a “dummy” capacitor of the same

value as the capacitive DAC array.

During the acquisition phase, the common terminal of the array

tied to the comparator’s positive input is connected to AGND

via SW

of the resistive scaler. Thus, the capacitor array is used as a

sampling capacitor and acquires the analog signal. Similarly, the

dummy capacitor acquires the analog signal on INGND input.

When the acquisition phase is complete, and the CNVST input goes

or is LOW, a conversion phase is initiated. When the conversion

phase begins, SW

and the dummy capacitor are then disconnected from the inputs

and connected to the REFGND input. Therefore, the differential

voltage between the output of the resistive scaler and INGND

captured at the end of the acquisition phase is applied to the

comparator inputs, causing the comparator to become unbalanced.

By switching each element of the capacitor array between REFGND

or REF, the comparator input varies by binary weighted voltage

. All independent switches are connected to the output

IND

INC

INB

INA

and SW

are opened first. The capacitor array

REFGND

INGND

REF

32,768C

Figure 3. ADC Simplified Schematic

16,384C

MSB

–12–

steps (V

these switches, starting with the MSB first, in order to bring the

comparator back into a balanced condition. After the completion

of this process, the control logic generates the ADC output code

and brings BUSY output LOW.

Modes of Operation

The AD7665 features three modes of operation, Warp, Normal,

and Impulse. Each of these modes is more suitable for specific

applications.

The Warp Mode allows the fastest conversion rate up to 570 kSPS.

However, in this mode and this mode only, the full specified accu-

racy is guaranteed only when the time between conversion does

not exceed 1 ms. If the time between two consecutive conversions

is longer than 1 ms, for instance, after power-up, the first con-

version result should be ignored. This mode makes the AD7665

ideal for applications where both high accuracy and fast sample

rate are required.

The Normal Mode is the fastest mode (500 kSPS) without any

limitation about the time between conversions. This mode makes

the AD7665 ideal for asynchronous applications such as data

acquisition systems, where both high accuracy and fast sample

rate are required.

The Impulse Mode, the lowest power dissipation mode, allows

power saving between conversions. The maximum throughput in

this mode is 444 kSPS. When operating at 100 SPS, for example,

it typically consumes only 15 µW. This feature makes the AD7665

ideal for battery-powered applications.

Transfer Functions

Using the OB/2C digital input, the AD7665 offers two output

codings: straight binary and twos complement. The ideal transfer

characteristic for the AD7665 is shown in Figure 4 and Table III.

65,536C

REF

111...111

111...110

111...101

000...010

000...001

000...000

/2, V

Figure 4. ADC Ideal Transfer Function

REF

LSB

/4 . . . V

0.5 LSB

COMP

REF

1 LSB

/65,536). The control logic toggles

ANALOG INPUT

SWITCHES

CONTROL

LOGIC

CNVST

1.5 LSB

OUTPUT

CODE

BUSY

1 LSB

REV.

EVAL-AD7665CBZ Analog Devices Inc, EVAL-AD7665CBZ Datasheet - Page 12

EVAL-AD7665CBZ

Specifications of EVAL-AD7665CBZ

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