AD7740KRMZ Analog Devices Inc, AD7740KRMZ Datasheet - Page 8

AD7740KRMZ

Manufacturer Part Number

AD7740KRMZ

Description

IC CONV SYNC VOLT-FREQ 8-MSOP

Manufacturer

Analog Devices Inc

Type

Voltage to Frequencyr

Datasheet

1.AD7740YRMZ.pdf (11 pages)

Specifications of AD7740KRMZ

Frequency - Max

500kHz

Full Scale

±50ppm/°C

Linearity

±0.012%

Mounting Type

Surface Mount

Package / Case

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

Frequency

1MHz

Full Scale Range

500kHz

Linearity %

Supply Voltage Range

3V To 5.25V

Digital Ic Case Style

SOIC

No. Of Pins

Msl

MSL 3 - 168 Hours

Frequency Max

1MHz

Converter Function

VFC

Full Scale Frequency

1000

Power Supply Requirement

Single

Single Supply Voltage (max)

5.25V

Single Supply Voltage (min)

Dual Supply Voltage (typ)

Not RequiredV

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Operating Temperature (min)

Operating Temperature (max)

85C

Operating Temperature Classification

Commercial

Package Type

MSOP

Converter Type

Voltage/Frequency

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD7740KRMZ

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD7740KRMZ-REEL7

Manufacturer:

ADI

Quantity:

1 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AD7740KRMZ-REEL7

Manufacturer:

NXP

Quantity:

6 000

Company:

BOSTOCK HK LIMITED

Part Number:

AD7740KRMZ-REEL7

Manufacturer:

ADI

Quantity:

3 370

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD7740KRMZ-REEL7

Manufacturer:

ADI原装

Quantity:

20 000

Current page: 8 of 11
Download datasheet (145Kb)

AD7740

Clock Generation

As distinct from the asynchronous VFCs that rely on the

stability of an external capacitor to set their full-scale frequency,

the AD7740 uses an external clock to deﬁne the full-scale output

frequency. The result is a more stable transfer function, which

allows the designer to determine the system stability and drift

based upon the selected external clock.

The AD7740 requires a master clock input, which may be an

external CMOS-compatible clock signal applied to the CLKIN

pin (CLKOUT not used). For a frequency of 1 MHz, a crystal

or resonator can be connected between CLKIN and CLKOUT

so that the clock circuit functions as a crystal controlled oscilla-

tor. Figure 7 shows a simple model of this.

Using the part with a crystal or ceramic resonator between the

CLKIN and CLKOUT pins generally causes more current to

be drawn from VDD than when the part is clocked from a driven

clock signal at the CLKIN pin. This is because the on-chip

oscillator is active in the case of the crystal or resonator. The

amount of additional current depends on a number of factors.

First, the larger the value of the capacitor on CLKIN and

CLKOUT pins, the larger the current consumption. Typical

values recommended by the crystal and resonator manufacturers

are in the range of 30 pF to 50 pF. Another factor that influ-

ences I

The lower the ESR value, the lower the current taken by the

oscillator circuit.

The on-chip oscillator also has a start-up time associated with it

before it oscillates at its correct frequency and voltage levels. The

typical start-up time is 10 ms with a V

a V

The AD7740 master clock appears inverted on the CLKOUT

pin of the device. The maximum recommended load on this pin is

one CMOS load. When using a crystal to generate the AD7740’s

clock it may be desirable to then use this clock as the clock

source for the entire system. In this case, it is recommended that

the CLKOUT signal be buffered with a CMOS buffer before

being applied to the rest of the circuit (as shown in Figure 7).

of 3.3 V (both with a 1 MHz crystal).

is Effective Series Resistance of the crystal (ESR).

CLKIN

CLKOUT

ON-CHIP

CIRCUITRY

of 5 V and 15 ms with

OFF-CHIP

CIRCUITRY

Reference Input

The AD7740 performs conversions relative to the applied refer-

ence voltage. This reference may be taken from the internal 2.5 V

bandgap reference by leaving REFIN/OUT unconnected. Alterna-

tively an external precision reference may be used. This is

connected to the REFIN/OUT pin, overdriving the internal

reference. Drive capability, initial error, noise, and drift charac-

teristics should be considered when selecting an external refer-

ence. The AD780 and REF192 are suitable choices for external

references.

The internal reference is most suited to applications where

ratiometric operation of the signal source is possible. Using the

internal reference in systems where the signal source varies with

time, temperature, loading, etc., tends to cancel out errors.

Power-Down Mode

When CLKIN is inactive low for 1 ms (typ), the AD7740 auto-

matically enters a power-down mode. In this mode most of the

digital and analog circuitry is shut down and REFOUT floats.

FOUT goes high. This reduces the power consumption to 525 µW

max (5 V) and 360 µW (3.3 V).

APPLICATIONS

The basic connection diagram for the part is shown in Figure 8.

In the connection diagram shown, the AD7740 is conﬁgured in

unbuffered mode. The 5 V power supply is used as a reference to

the AD7740. A quartz crystal provides the master clock source

for the part. It may be necessary to connect capacitors (C1 and

C2 in the diagram) to the crystal to ensure that it does not oscil-

late at overtones of its fundamental operating frequency. The

values of capacitors will vary depending on the manufacturer’s

speciﬁcations.

VIN

AD7740

CLKIN

VDD

CLKOUT

REFIN

FOUT

GND

BUF

0.1 F

10 F

AD7740KRMZ Analog Devices Inc, AD7740KRMZ Datasheet - Page 8

AD7740KRMZ

Specifications of AD7740KRMZ

Available stocks

Related parts for AD7740KRMZ