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Single- and 4-Channel, 9 s, 10-Bit ADCs

with On-Chip Temperature Sensor

AD7816/AD7817/AD7818

FEATURES

10-Bit ADC with 9 s Conversion Time

One (AD7818) and Four (AD7817) Single-Ended Analog

Input Channels

The AD7816 Is a Temperature Measurement Only Device

On-Chip Temperature Sensor

Resolution of 0.25 C

2 C Error from –40 C to +85 C

–55 C to +125 C Operating Range

Wide Operating Supply Range

2.7 V to 5.5 V

Inherent Track-and-Hold Functionality

On-Chip Reference (2.5 V 1%)

Overtemperature Indicator

Automatic Power-Down at the End of a Conversion

Low Power Operation

4 W at a Throughput Rate of 10 SPS

40 W at a Throughput Rate of 1 kSPS

400 W at a Throughput Rate of 10 kSPS

Flexible Serial Interface

APPLICATIONS

Ambient Temperature Monitoring (AD7816)

Thermostat and Fan Control

High Speed Microprocessor

Temperature Measurement and Control

Data Acquisition Systems with Ambient Temperature

Monitoring (AD7817 and AD7818)

Industrial Process Control

Automotive

Battery Charging Applications

GENERAL DESCRIPTION

FUNCTIONAL BLOCK DIAGRAM

REF

AD7817

TEMP

SENSOR

REF

2.5V

MUX

SAMPLING

CAPACITOR

OVERTEMP

REG

CHARGE

REDISTRIBUTION

DAC

CONTROL

LOGIC

A>B

DATA

OUT

OTI

IN1

IN2

IN3

IN4

CONTROL

REG

SCLK

RD/WR

BALANCE

BUSY

CONVST

CLOCK

AGND

DGND

The AD7816, AD7817, and AD7818 have a flexible serial

interface that allows easy interfacing to most microcontrollers.

The interface is compatible with the Intel 8051, Motorola

SPI

and QSPI™ protocols and National Semiconductors

MICROWIRE™ protocol. For more information refer to the

Serial Interface section of this data sheet.

The AD7817 is available in a narrow body 0.15" 16-lead small

outline IC (SOIC), in a 16-lead, thin shrink small outline pack-

age (TSSOP), while the AD7816/AD7818 come in an 8-lead

small outline IC (SOIC) and an 8-lead microsmall outline IC

(MSOP).

PRODUCT HIGHLIGHTS

The AD7818 and AD7817 are 10-bit, single- and 4-channel

A/D converters with on-chip temperature sensor that can oper-

ate from a single 2.7 V to 5.5 V power supply. Each part con-

tains a 9

µs

successive-approximation converter based around

a capacitor DAC, an on-chip temperature sensor with an accu-

racy of 2°C, an on-chip clock oscillator, inherent track-and-

hold functionality and an on-chip reference (2.5 V). The

AD7816 is a temperature monitoring only device in a SOIC/

MSOP package.

The on-chip temperature sensor of the AD7817 and AD7818

can be accessed via Channel 0. When Channel 0 is selected and

a conversion is initiated, the resulting ADC code at the end of

the conversion gives a measurement of the ambient temperature

with a resolution of 0.25°C. See Temperature Measurement

section of this data sheet.

REV. C

Information furnished by Analog Devices is believed to be accurate and

reliable. However, no responsibility is assumed by Analog Devices for its

use, nor for any infringements of patents or other rights of third parties that

may result from its use. No license is granted by implication or otherwise

under any patent or patent rights of Analog Devices. Trademarks and

registered trademarks are the property of their respective owners.

1. The devices have an on-chip temperature sensor that allows an

accurate measurement of the ambient temperature to be

made. The measurable temperature range is –55°C to +125°C.

2. An overtemperature indicator is implemented by carrying out a

digital comparison of the ADC code for Channel 0 (tempera-

ture sensor) with the contents of the on-chip overtemperature

a predetermined temperature is exceeded.

3. The automatic power-down feature enables the AD7816,

AD7817, and AD7818 to achieve superior power perfor-

mance at slower throughput rates, e.g., 40

µW

at 1 kSPS

throughput rate.

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.

Tel: 781/329-4700

www.analog.com

Fax: 781/326-8703

AD7816/AD7817/AD7818

AD7817–SPECIFICATIONS

Parameter

DYNAMIC PERFORMANCE

Signal to (Noise + Distortion) Ratio

Total Harmonic Distortion

Peak Harmonic or Spurious Noise

Intermodulation Distortion

Second Order Terms

Third Order Terms

Channel-to-Channel Isolation

–65

–67

–80

= 2.7 V to 5.5 V, GND = 0 V, REF

= 2.5 V unless otherwise noted)

Version Unit

Test Conditions/Comments

Sample Rate = 100 kSPS, Any

Channel, f

= 20 kHz

A Version

Version

–65

–67

–80

1/2

–65

–67

–80

+20/–10

1/2

dB min

dB max

dB typ

Bits

LSB max

–75 dB typ

fa =19.9 kHz, fb = 20.1 kHz

= 20 kHz

Any Channel

DC ACCURACY

Resolution

Minimum Resolution for Which

No Missing Codes are Guaranteed 10

Relative Accuracy

Differential Nonlinearity

Gain Error

1/2

Gain Error Match

Offset Error

Offset Error Match

1/2

TEMPERATURE SENSOR

Measurement Error

Ambient Temperature 25°C

MIN

to T

MAX

Measurement Error

Ambient Temperature 25°C

MIN

to T

MAX

Temperature Resolution

REFERENCE INPUT

3, 4

REF

Input Voltage Range

Input Impedance

Input Capacitance

ON-CHIP REFERENCE

Temperature Coefficient

CONVERSION RATE

Track/Hold Acquisition Time

Conversion Time

Temperature Sensor

Channels 1 to 4

POWER REQUIREMENTS

Normal Operation

Using External Reference

Power-Down (V

= 5 V)

Power-Down (V

= 3 V)

Auto Power-Down Mode

10 SPS Throughput Rate

1 kSPS Throughput Rate

10 kSPS Throughput Rate

Power-Down

External Reference

Internal Reference

2.25

1/4

2.625

2.375

400

5.5

2.7

1.75

6.4

48.8

434

2.25

1/4

2.625

2.375

400

5.5

2.7

1.75

6.4

48.8

434

2.25

1/4

2.625

2.375

150

400

5.5

2.7

1.75

12.5

4.5

6.4

48.8

434

13.5

°C

max

°C

max

°C

max

°C

max

°C/LSB

V max

V min

kΩ min

pF max

ppm/°C typ

ns max

µs

max

µs

max

V max

V min

mA max

µA

max

µA

max

µW

typ

µW

typ

µW

typ

µW

max

External Reference V

REF

= 2.5 V

On-Chip Reference

2.5 V + 5%

2.5 V – 5%

Nominal 2.5 V

Source Impedance < 10

Ω

For Specified Performance

Logic Inputs = 0 V or V

1.6 mA typ

2.5 V External Reference Connected

5.5

µA

typ

µA

typ

= 3 V

See Power vs. Throughput Section for

Description of Power Dissipation in

Auto Power-Down Mode

Typically 6

µW

–2–

REV. C

AD7816/AD7817/AD7818

to 5.5

AD7816/AD7818

–SPECIFICATIONS

(V = 2.7 Vnoted) V, GND = 0 V, REF

otherwise

= 2.5 V unless

Parameter

DYNAMIC PERFORMANCE (AD7818 Only)

Signal to (Noise + Distortion) Ratio

Total Harmonic Distortion

Peak Harmonic or Spurious Noise

Intermodulation Distortion

Second Order Terms

Third Order Terms

Channel-to-Channel Isolation

DC ACCURACY (AD7818 Only)

Resolution

Minimum Resolution for Which

No Missing Codes are Guaranteed

Relative Accuracy

Differential Nonlinearity

Gain Error

Offset Error

TEMPERATURE SENSOR

Measurement Error

Ambient Temperature 25°C

MIN

to T

MAX

Measurement Error

Ambient Temperature 25°C

MIN

to T

MAX

Temperature Resolution

REFERENCE INPUT

3, 4

(AD7816 Only)

REF

Input Voltage Range

Input Impedance

Input Capacitance

ON-CHIP REFERENCE

Temperature Coefficient

CONVERSION RATE

Track/Hold Acquisition Time

Conversion Time

Temperature Sensor

Channel 1

POWER REQUIREMENTS

Normal Operation

Using External Reference

Power-Down (V

= 5 V)

Power-Down (V

= 3 V)

Auto Power-Down Mode

10 SPS Throughput Rate

1 kSPS Throughput Rate

10 kSPS Throughput Rate

Power-Down

A Version

Unit

Test Conditions/Comments

Sample Rate = 100 kSPS, Any Channel,

= 20 kHz

–65

–67

–80

dB min

dB max

dB typ

Bits

LSB max

–75 dB typ

fa = 19.9 kHz, fb = 20.1 kHz

= 20 kHz

Any Channel

1/4

2.625

2.375

400

5.5

2.7

1.75

10.75

4.5

6.4

48.8

434

13.5

°C

max

°C

max

°C

max

°C

max

°C/LSB

V max

V min

kΩ min

pF max

ppm/°C typ

ns max

µs

max

µs

max

V max

V min

mA max

µA

max

µA

max

µW

typ

µW

typ

µW

typ

µW

max

External Reference V

REF

= 2.5 V

On-Chip Reference

2.5 V + 5%

2.5 V – 5%

Nominal 2.5 V

Source Impedance < 10

Ω

(AD7818 Only)

For Specified Performance

Logic Inputs = 0 V or V

1.3 mA typ

2.5 V External Reference Connected

µA

typ

µA

typ

= 3 V

See Power vs. Throughput Section for

Description of Power Dissipation in

Auto Power-Down Mode

Typically 6

µW

REV. C

–3–

AD7816/AD7817/AD7818–SPECIFICATIONS

Parameter

ANALOG INPUTS

Input Voltage Range

Input Leakage

Input Capacitance

LOGIC INPUTS

Input High Voltage, V

INH

Input Low Voltage, V

INL

Input High Voltage, V

INH

Input Low Voltage, V

INL

Input Current, I

Input Capacitance, C

LOGIC OUTPUTS

Output High Voltage, V

2.4

Output Low Voltage, V

High Impedance Leakage Current

High Impedance Capacitance

0.4

0.2

0.4

0.2

0.4

0.2

V max

µA

max

pF max

2.4

V min

A Version

REF

2.4

0.8

0.4

Version

REF

2.4

0.8

0.4

Version

REF

2.4

0.8

0.4

Unit

V max

V min

µA

min

pF max

V min

V max

V min

V max

µA

max

pF max

= 5 V 10%

= 3 V 10%

Typically 10 nA, V

= 0 V to V

Test Conditions/Comments

(AD7817 and AD7818)

SOURCE

= 200

µA

= 5 V 10%

= 3 V 10%

SINK

= 200

µA

= 5 V 10%

= 3 V 10%

NOTES

and S Versions apply to AD7817 only. For operating temperature ranges, see Ordering Guide.

AD7816 and AD7817 temperature sensors specified with external 2.5 V reference, AD7818 specified with on-chip reference. All other specifications with external

and on-chip reference (2.5 V). For V

= 2.7 V, T

= 85°C max and temperature sensor measurement error = 3°C.

See Terminology.

The accuracy of the temperature sensor is affected by reference tolerance. The relationship between the two is explained in the section titled Temperature Measure-

ment Error Due to Reference Error.

Sample tested during initial release and after any redesign or process change that may affect this parameter.

On-chip reference shuts down when external reference is applied.

All specifications are typical for AD7818 at temperatures above 85°C and with V

greater than 3.6 V.

Refers to the input current when the part is not converting. Primarily due to reverse leakage current in the ESD protection diodes.

Specifications subject to change without notice.

REF

AD7816

TEMP

SENSOR

REF

2.5V

MUX

SAMPLING

CAPACITOR

OVERTEMP

REG

CHARGE

REDISTRIBUTION

DAC

A>B

DATA

OUT

OTI

AD7818

TEMP

SENSOR

REF

2.5V

OVERTEMP

REG

CHARGE

REDISTRIBUTION

DAC

A>B

DATA

OUT

OTI

IN/OUT

CONTROL

LOGIC

CONTROL

REG

CLOCK

SCLK

RD/WR

IN1

MUX

SAMPLING

CAPACITOR

BALANCE

AGND

CONTROL

LOGIC

CONTROL

REG

CLOCK

GENERATOR

CONVST

IN/OUT

SCLK

RD/WR

BALANCE

CONVST

AGND

Figure 1. AD7816 Functional Block Diagram

Figure 2. AD7818 Functional Block Diagram

–4–

REV. C

AD7816/AD7817/AD7818

TIMING CHARACTERISTICS

1, 2

Parameter

POWER-UP

123

133

14a3, 4

14b3, 4

A, B Versions

150

400

Unit

µs

max

µs

max

µs

max

ns min

ns max

ns min

ns max

ns min

= 2.7 V to 5.5 V, GND = 0 V, REF

= 2.5 V. All specifications T

MIN

to T

MAX

unless

otherwise noted)

Test Conditions/Comments

Power-Up Time from Rising Edge of

CONVST

Conversion Time Channels 1 to 4

Conversion Time Temperature Sensor

CONVST

Pulse Width

CONVST

Falling Edge to BUSY Rising Edge

Falling Edge to RD/WR Falling Edge Setup Time

RD/WR Falling Edge to SCLK Falling Edge Setup

Setup Time before SCLK Rising Edge

Hold Time after SCLK Rising Edge

SCLK Low Pulse Width

SCLK High Pulse Width

Falling Edge to RD/WR Rising Edge Setup Time

RD/WR Rising Edge to SCLK Falling Edge Setup Time

OUT

Access Time after RD/WR Rising Edge

OUT

Access Time after SCLK Falling Edge

OUT

Bus Relinquish Time after Falling Edge of RD/WR

OUT

Bus Relinquish Time after Rising Edge of

BUSY

Falling Edge to

OTI

Falling Edge

RD/WR Rising Edge to

OTI

Rising Edge

SCLK Rising Edge to

CONVST

Falling Edge (Acquisition Time of T/H)

NOTES

Sample tested during initial release and after any redesign or process change that may affect this parameter. All input signals are measured with tr = tf = 1 ns (10% to

90% of 5 V) and timed from a voltage level of 1.6 V.

See Figures 16, 17, 20 and 21.

These figures are measured with the load circuit of Figure 3. They are defined as the time required for D

OUT

to cross 0.8 V or 2.4 V for V

= 5 V 10% and 0.4 V

or 2 V for V

= 3 V 10%, as quoted on the specifications page of this data sheet.

These times are derived from the measured time taken by the data outputs to change 0.5 V when loaded with the circuit of Figure 3. The measured number is then

extrapolated back to remove the effects of charging or discharging the 50 pF capacitor. This means that the times quoted in the timing characteristics are the true bus

relinquish times of the part and as such are independent of external bus loading capacitances.

Specifications subject to change without notice.

200 A

OUTPUT

1.6V

50pF

200 A

Figure 3. Load Circuit for Access Time and Bus Relinquish Time

REV. C

–5–

参数对比

与AD7816ARZ-REEL相近的元器件有：AD7817SRZ、AD7816ARMZ-REEL7、AD7816ARMZ、AD7816ARZ-REEL7、AD7816ARMZ-REEL。描述及对比如下：

型号	AD7816ARZ-REEL	AD7817SRZ	AD7816ARMZ-REEL7	AD7816ARMZ	AD7816ARZ-REEL7	AD7816ARMZ-REEL
描述	IC SPECIALTY ANALOG CIRCUIT, PDSO8, SOIC-8, Analog IC:Other	IC 4-CH 10-BIT SUCCESSIVE APPROXIMATION ADC, SERIAL ACCESS, PDSO16, MS-012-AC, SOIC-16, Analog to Digital Converter	IC SPECIALTY ANALOG CIRCUIT, PDSO8, MICRO, SOIC-8, Analog IC:Other	Switch/Digital Output Temperature Sensor, DIGITAL TEMP SENSOR-SERIAL, 10BIT(s), 1Cel, SQUARE, SURFACE MOUNT, MICRO, SOIC-8	IC SPECIALTY ANALOG CIRCUIT, PDSO8, SOIC-8, Analog IC:Other	IC SPECIALTY ANALOG CIRCUIT, PDSO8, MICRO, SOIC-8, Analog IC:Other
是否无铅	不含铅	不含铅	不含铅	不含铅	不含铅	不含铅
是否Rohs认证	符合	符合	符合	符合	符合	符合
厂商名称	ADI(亚德诺半导体)	ADI(亚德诺半导体)	ADI(亚德诺半导体)	ADI(亚德诺半导体)	ADI(亚德诺半导体)	ADI(亚德诺半导体)
Reach Compliance Code	not_compliant	compliant	not_compliant	compliant	not_compliant	not_compliant
ECCN代码	EAR99	EAR99	EAR99	EAR99	EAR99	EAR99
零件包装代码	SOIC	SOIC	SOIC	-	SOIC	SOIC
包装说明	SOIC-8	-	MICRO, SOIC-8	-	SOIC-8	MICRO, SOIC-8
针数	8	16	8	-	8	8
其他特性	THIS IS A TEMPERATURE MEASUREMENT ONLY DEVICE	-	THIS IS A TEMPERATURE MEASUREMENT ONLY DEVICE	THIS IS A TEMPERATURE MEASUREMENT ONLY DEVICE	THIS IS A TEMPERATURE MEASUREMENT ONLY DEVICE	THIS IS A TEMPERATURE MEASUREMENT ONLY DEVICE
模拟集成电路 - 其他类型	ANALOG CIRCUIT	-	ANALOG CIRCUIT	-	ANALOG CIRCUIT	ANALOG CIRCUIT
JESD-30 代码	R-PDSO-G8	-	S-PDSO-G8	-	R-PDSO-G8	S-PDSO-G8
JESD-609代码	e3	-	e3	e3	e3	e3
长度	4.9 mm	-	3 mm	-	4.9 mm	3 mm
湿度敏感等级	1	-	1	-	1	1
功能数量	1	-	1	-	1	1
端子数量	8	-	8	-	8	8
最高工作温度	125 °C	-	125 °C	125 °C	125 °C	125 °C
最低工作温度	-55 °C	-	-55 °C	-55 °C	-55 °C	-55 °C
封装主体材料	PLASTIC/EPOXY	-	PLASTIC/EPOXY	-	PLASTIC/EPOXY	PLASTIC/EPOXY
封装代码	SOP	-	TSSOP	-	SOP	TSSOP
封装形状	RECTANGULAR	-	SQUARE	-	RECTANGULAR	SQUARE
封装形式	SMALL OUTLINE	-	SMALL OUTLINE, THIN PROFILE, SHRINK PITCH	-	SMALL OUTLINE	SMALL OUTLINE, THIN PROFILE, SHRINK PITCH
峰值回流温度（摄氏度）	260	-	260	-	260	260
认证状态	Not Qualified	-	Not Qualified	-	Not Qualified	Not Qualified
座面最大高度	1.75 mm	-	1.1 mm	-	1.75 mm	1.1 mm
最大供电电压 (Vsup)	5.5 V	-	5.5 V	-	5.5 V	5.5 V
最小供电电压 (Vsup)	2.7 V	-	2.7 V	-	2.7 V	2.7 V
标称供电电压 (Vsup)	3 V	-	3 V	-	3 V	3 V
表面贴装	YES	-	YES	YES	YES	YES
温度等级	MILITARY	-	MILITARY	-	MILITARY	MILITARY
端子面层	MATTE TIN	-	MATTE TIN	Matte Tin (Sn)	MATTE TIN	MATTE TIN
端子形式	GULL WING	-	GULL WING	-	GULL WING	GULL WING
端子节距	1.27 mm	-	0.65 mm	-	1.27 mm	0.65 mm
端子位置	DUAL	-	DUAL	-	DUAL	DUAL
处于峰值回流温度下的最长时间	40	-	40	-	40	40
宽度	3.9 mm	-	3 mm	-	3.9 mm	3 mm