AD7450ARMZ Analog Devices Inc, AD7450ARMZ Datasheet - Page 10

AD7450ARMZ

Manufacturer Part Number

AD7450ARMZ

Description

IC ADC 12BIT DIFF IN 1MSPS 8MSOP

Manufacturer

Analog Devices Inc

Datasheet

1.AD7450ARMZ.pdf (20 pages)

Specifications of AD7450ARMZ

Data Interface

DSP, MICROWIRE™, QSPI™, Serial, SPI™

Number Of Bits

Sampling Rate (per Second)

Number Of Converters

Power Dissipation (max)

9.25mW

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-TSSOP, 8-MSOP (0.118", 3.00mm Width)

Resolution (bits)

12bit

Input Channel Type

Differential

Supply Voltage Range - Analogue

2.7V To 3.3V, 4.75V To 5.25V

Supply Current

1.8mA

No. Of Pins

Operating

RoHS Compliant

Sampling Rate

1MSPS

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

EVAL-AD7450CBZ - BOARD EVALUATION FOR AD7450

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD7450ARMZ

Manufacturer:

ADI/亚德诺

Quantity:

20 000

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AD7450

CIRCUIT INFORMATION

The AD7450 is a fast, low power, single-supply, 12-bit successive

approximation analog-to-digital converter (ADC). It can operate

with a 5 V and 3 V power supply and is capable of throughput

rates up to 1 MSPS and 833 kSPS when supplied with an

18 MHz or 15 MHz clock, respectively. This part requires an

external reference to be applied to the V

of the reference chosen depending on the power supply and

what suits the application.

When operated with a 5 V supply, the maximum reference that

can be applied to the part is 3.5 V, and when operated with a 3 V

supply, the maximum reference that can be applied to the part

is 2.2 V. (See the References section.)

The AD7450 has an on-chip differential track-and-hold amplifier,

a successive approximation (SAR) ADC, and a serial interface that

is housed in either an 8-lead SOIC or µSOIC package. The serial

clock input accesses data from the part and also provides the

clock source for the successive approximation ADC. The AD7450

features a power-down option for reduced power consumption

between conversions. The power-down feature is implemented

across the standard serial interface as described in the Modes of

Operation section.

CONVERTER OPERATION

The AD7450 is a successive approximation ADC based on two

capacitive DACs. Figures 3 and 4 show simplified schematics of

the ADC in acquisition and conversion phase, respectively. The

ADC is comprised of control logic, a SAR, and two capacitive

DACs. In Figure 3 (the acquisition phase), SW3 is closed and

SW1 and SW2 are in Position A, the comparator is held in a

balanced condition, and the sampling capacitor arrays acquire

the differential signal on the input.

When the ADC starts a conversion (Figure 4), SW3 will open and

SW1 and SW2 will move to Position B, causing the comparator to

become unbalanced. Both inputs are disconnected once the con-

version begins. The control logic and the charge redistribution

DACs are used to add and subtract fixed amounts of charge

from the sampling capacitor arrays to bring the comparator back

into a balanced condition. When the comparator is rebalanced,

the conversion is complete. The control logic generates the ADC’s

output code. The output impedances of the sources driving the

will have different settling times, resulting in errors.

IN+

IN–

and V

IN–

Figure 3. ADC Acquisition Phase

pins must be matched; otherwise, the two inputs

SW1

SW2

SW3

COMPARATOR

–

REF

pin, with the value

CAPACITIVE

CONTROL

LOGIC

DAC

–10–

ADC TRANSFER FUNCTION

The output coding for the AD7450 is two’s complement. The

designed code transitions occur at successive LSB values (i.e.,

1 LSB, 2 LSB, and so on), and the LSB size is 2

The ideal transfer characteristic of the AD7450 is shown in Figure 5.

TYPICAL CONNECTION DIAGRAM

Figure 6 shows a typical connection diagram for the AD7450

for both 5 V and 3 V supplies. In this setup, the GND pin is

connected to the analog ground plane of the system. The V

pin is connected to either a 2.5 V or a 1.25 V decoupled reference

source, depending on the power supply, to set up the analog

input range. The common-mode voltage has to be set up exter-

nally and is the value that the two inputs are centered on. For

more details on driving the differential inputs and setting up the

common mode, see the Driving Differential Inputs section.

The conversion result for the ADC is output in a 16-bit word

consisting of four leading zeros followed by the MSB of the

12-bit result. For applications where power consumption is of

concern, the power-down mode should be used between

conversions, or bursts of several conversions, to improve power

performance. See Modes of Operation section.

IN+

IN–

Figure 5. Ideal Transfer Characteristics

011...111

011...110

000...001

000...000

111...111

100...010

100...001

100...000

Figure 4. ADC Conversion Phase

–V

SW1

SW2

REF

+ 1LSB

1LSB = 2

ANALOG INPUT

0LSB

REF

IN+

SW3

/4096

– V

COMPARATOR

IN–

–

)

REF

– 1LSB

REF

CAPACITIVE

CONTROL

/ 4096.

LOGIC

DAC

REV. 0

REF

AD7450ARMZ Analog Devices Inc, AD7450ARMZ Datasheet - Page 10

AD7450ARMZ

Specifications of AD7450ARMZ

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