AMG8832 [PANASONIC]

Infrared Array Sensor Grid-EYE; 红外阵列传感器网-EYE


型号：	AMG8832
厂家：	PANASONIC
描述：	Infrared Array Sensor Grid-EYE 红外阵列传感器网-EYE 传感器
文件：	总6页 (文件大小：137K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Infrared Array Sensor Grid-EYE (AMG88)

High Precision

Infrared Array Sensor

based on Advanced

MEMS Technology

Grid-EYE

FEATURES

TYPICAL APPLICATIONS

1.Temperature detection achieved on

a two dimensional area with 8 × 8 (64)

pixels.

• High performance home appliance

(Microwave oven and air conditioner)

• Energy savings in ofﬁce (Air-

conditioning and lighting controls)

• Digital signage

2. Digital output (temperature values

can be output)

3. Miniature SMD package (reﬂow

mounting supported)

• Automatic door and elevator

RoHS compliant

ORDERING INFORMATION

AMG

Vertical pixel

8: 8 pixels

Horizontal pixel

8: 8 pixels

Applied voltage

3: 3.3 V DC

5: 5 V DC

Amplification factor

1: High gain

2: Low gain

TYPES

Product name

Number of pixel

Operating voltage

3.3 V DC

Ampliﬁcation factor

Part number

AMG8831

AMG8832

AMG8851

AMG8852

High gain

Low gain

High gain

Low gain

Infrared array sensor

Grid-EYE

(Vertical 8 × Horizontal 8 Matrix)

5.0 V DC

Tape and reel package: 1,000 pcs.

RATING

Standard

3.3V 0.3V or 5.0V 0.5V

Item

High gain

Low gain

Applied voltage

Temperature range of measuring object

Operating temperature range

Storage temperature range

0°C to 80°C +32°F to +176°F

–20°C to 80°C –4°F to +176°F

–20°C to 100°C –4°F to +212°F

–20°C to 80°C –4°F to +176°F

ASCTB22E 201201-T

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

Infrared Array Sensor Grid-EYE (AMG88)

ABSOLUTE MAXIMUM RATINGS

Item

Standard

Terminal

Applied voltage

Input voltage

–0.3 to 6.5V

–0.3 to Vdd + 0.3V

–10 to 10mA

1kV

Vdd

SCL, SDA, AD_SELECT

INT, SDA

Output sink current

Static electricity (Human body model)

Static electricity (Machine model)

All terminals

200V

All terminals

CHARACTERISTICS

Standard

Item

High gain

Typical 2.5°C 4.5°F

Low gain

Typical 3.0°C 5.4°F

Temperature accuracy

Detection distance*1

Viewing angle

Max. 5m 16.404ft

Typical 60°

Optical axis gap

Within Typical 5.6°

Typical 4.5mA (normal mode)

Typical 0.2mA (sleep mode)

Typical 0.8mA (stand-by mode)

Current consumption

Typical 50ms (Time to enable communication after setup)

Typical 15s (Time to stabilize output after setup)

Setup time

Note: *1. To have more than 4°C 7.2°F of temperature difference from background

Detection object size: 700 × 250 mm 27.559 × 9.843 inch (Assumable human body size)

FUNCTIONS

Item

Value

Number of pixel

External interface

Frame rate

64 (Vertical 8 × Horizontal 8 Matrix)

I²C (fast mode)

Typical 10 frames/sec or 1 frame/sec

Normal

Operating mode

Sleep

Stand-by (10 sec or 60 sec intermittence)

Output mode

Temperature output

Calculate mode

No moving average or Twice moving average

0.25°C

2 (I²C slave address)

–20°C to 80°C –4°F to +176°F

0.0625°C

Temperature output resolution

Number of sensor address

Thermistor output temperature range

Thermistor output resolution

INTERNAL CIRCUIT

3.3V DC or 5V DC

Infrared array sensor

Sensor chip

SDA

SCL

VDD

ROM

I²C I/F

Selector

Control

AD_SELECT

INT

Capacitor

10µF

Gain

amp

ADC

GND

Thermistor

GND

* INT terminal 4 normally has same voltage as VDD. When interrupting, same as GND (0V).

ASCTB22E 201201-T

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

Infrared Array Sensor Grid-EYE (AMG88)

PIXEL ARRAY AND VIEWING FIELD

1. Pixel array

2. Viewing ﬁeld

Pixel array from 1 to 64 is shown below.

Sensor viewing ﬁeld (typical) is shown below.

64 63 62 61 60 59 58 57

56 55 54 53 52 51 50 49

48 47 46 45 44 43 42 41

40 39 38 37 36 35 34 33

32 31 30 29 28 27 26 25

24 23 22 21 20 19 18 17

Horizontal viewing angle 60°

16 15 14 13 12 11 10

OPTICAL PROPERTIES

1. Each pixel’s viewing central angle

2. Each pixel’s viewing angle (half angle)

Central 4 pixels (Pixel No. 28, 29, 36, 37) viewing angle

(half angle): horizontal direction 7.5° (Typical)

vertical direction 8° (Typical)

Sensor’s optical center (the origin of graph below) gap: within

5.6° (Typical) (Both of horizontal and vertical directions)

13 17 21 25 29 33 37 41 45 49 53 57 61

Pixel number

13 17 21 25 29 33 37 41 45 49 53 57 61

Pixel number

Horizontal viewing central angle, (°)

The CAD data of the products with a CAD Data mark can be downloaded from: http://industrial.panasonic.com/ac/e

DIMENSIONS (mm inch)

CAD Data

External dimensions

Recommended PC board pad

Lens

0.05

.002

Terminal layout

11.0

.433

ꢀ2.6 .102

2.0

{

}

VDD

.079

SDA

SCL

(0.75)

(.030)

AVDD-PC

8.0

.315

5.3

.209

3.5 8.7

.138 .343

INT

AD_SELECT

GND

DVDD-PC

VPP

3.6

.142

Lot No.

*Four corners

4-0.8

11.6

.457

10-0.7

10-.028

Part No.

(Printed without “AMG88”)

4-.031

Note: Leave terminal “NC (No.Q, U, I, { and w)”

unconnected.

P1.27 ^0.05×4=5.08

8.9

.350

P.050 ^.002×4=.200

Make electrical potential of terminals O and

q the same.

4.3

.169

1.5

.059

14-0.5

14-.020

3.0

.118

7.8

.307

13-2.0

13-.079

P1.27×4

P.050×4

10.9

Tolerance outside of that indicated: 0.2 .008

.429

ASCTB22E 201201-T

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

Infrared Array Sensor Grid-EYE (AMG88)

RECOMMENDED EXTERNAL CIRCUIT

1. In case of setting I²C slave address of the sensor 1101000

2. In case of setting I²C slave address of the sensor 1101001

* Connect terminal T (AD_SELECT) to GND.

* Connect terminal T (AD_SELECT) to VDD.

VDD

10kΩ 10kΩ 10kΩ

10kΩ 10kΩ 10kΩ 10kΩ

WSDA

ESCL

RINT

qVPP

}DVDD-PC

WSDA

ESCL

RINT

qVPP

}DVDD-PC

To microcomputer etc.

AD_SELECT

YGND

PAVDD-PC

OVDD

AD_SELECT

YGND

PAVDD-PC

OVDD

1µF

20Ω

1µF

20Ω

1.5µF

10µF

GND

Recommended external circuit

This circuit is an example to drive infrared array sensor “Grid-EYE”, so that we will not take any responsibility of loss which

is due to this circuit.

PACKING FORMAT (Tape and reel) (mm inch)

Tape dimensions

Dimensions of tape reel

0.3

3.0

16.0

21.5

.846

.012

.630

1.0

17.5

.689

0.1

0.8

7.5

.295

1.75

.069

21.0

.827

1.0

.004

0.05

0.8

0.35

.014

0.5

2.0

.079

+0.1

.020

380.0 ²dia.

1.5 dia.

Top cover tape

−0

14.961 ^.079dia.

+.004

.059

dia.

−0

100.0 ²dia.

3.937 ^.079dia.

Embossed carrier tape

13 ^0.5dia.

0.1

4.0

.157

.512 ^.020dia.

.004

0.1

16.0

.630

.004

1.5^+0.1dia.

.059^+.₀⁰⁰⁴dia.

0.1

12.6

.496

.004

0.1

2.0

.004

.079

0.1

9.0

.354

4.7

.185

.004

NOTES

1. Checkpoints relating to principle of

operation

pass through is attached to the sensor

lens.

ice and condensation must be provided

prior to using the sensors.

The Infrared array sensor is a thermobile-

typed infrared sensor which detects

quantity of infrared ray. Generally,

temperature accuracy will be degraded in

the following situations. Be sure to verify

performance and reliability under actual

conditions of use and make any

necessary temperature corrections.

• There is a heat emitting body located

close to where the sensor is mounted.

• A ﬂow of warm or cold air is hitting the

sensor.

If condensation occurs, heat source

detection response may become delayed

by several seconds.

6) Please avoid using or storing the

infrared array sensor in a place exposed

to corrosive gases (such as the gases

given off by organic solvents, sulfurous

acid gas, hydrogen sulﬁdes, etc.) which

will adversely affect the performance of

the infrared array sensor.

2. Ambient operating conditions

1) Temperature: Please refer to

“RATING”.

2) Humidity: 15% to 85% R.H. (No

freezing nor condensation at low

temperature)

3) Atmospheric pressure: 86 to 106 kPa

4) Protect the sensor from impact and

vibration, because these can cause

damage that leads to malfunction and

degraded performance. And avoid

7) Since the internal circuitry may be

destroyed if an external surge voltages is

supplied, provide an element which will

absorb the surges.

• The temperature of the sensor is subject

to sudden changes.

applying a load or impact since this will

deform or scratch the lens, making

• When an object made of glass, acrylic

or other subject which far infrared rays

have difﬁcult passing through is located

between the sensor and what is to be

detected.

proper operation impossible and causing

a deterioration in its performance.

8) Malfunctioning may occur if the

product is in the vicinity of electrical noise

such as that from static electricity,

lightning, a mobile phone, an amateur

radio and a broadcasting station.

5) The sensors do not have a water-proof

or dust-proof construction. Depending on

the ambient operating conditions, some

means of providing protection from water

and dust and preventing the formation of

• A substance (dirt or water droplets) that

makes it difﬁcult for far infrared rays to

ASCTB22E 201201-T

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

Infrared Array Sensor Grid-EYE (AMG88)

9) Although the ambient temperature

(humidity) range is a temperature

(humidity) range which can operate a

sensor continuously, the humidity range

changes with temperature.

So please use it in the humidity range.

And please avoid continuation use near a

limit. This humidity range does not

guarantee durability ability.

4. Ambient temperature (humidity)

6. Soldering

range

Due to the thermal capacity of the

infrared array sensor is low, therefore,

take steps to minimize the effects of

external heat. Damage and changes to

characteristics may occur due to heat

deformation. Use a non-corrosive resin

type of ﬂux.

Although the ambient temperature

(humidity) range is a temperature

(humidity) range which can operate a

sensor continuously, the humidity range

changes with temperature.

So please use it in the humidity range

shown below. And please avoid

continuation use near a limit. Generally

under high temperature or high humidity,

deterioration of electronic parts

accelerates. To ensure reliability, please

verify quality under conditions of actual

use.

1) Manual soldering

• Set the soldering tip from 350 to 400°C

662 to 752°F (30 to 60W), and solder

within 3 seconds or less.

• Please note that output may be

changed if the load is applied to the

terminals when the soldering.

• Carefully clean the tip of soldering iron.

2) Reﬂow soldering

3. Other handling cautions

To assure reliability, check the sensor

under actual loading conditions. Avoid

any situation that may adversely affect its

performance.

1) This sensor may malfunction if

dropped on its own before it is installed.

Do not use if this happens.

2) Caution is required because writing

except for register and bit speciﬁed can

be cause of malfunction and performance

degradation. (Please consult us.)

3) Caution is required because

differences in the temperature range and

the method of connection can lead to

breakdown.

4) If the sensor get high frequency

vibration, it can be cause of breakdown.

When the product get impulse like below,

do not use it.

• This humidity range does not guarantee

durability ability.

The recommended reﬂow temperature

proﬁle conditions are given below.

• We recommend the screen solder

printing method as the method of cream.

• Please refer to the recommended PC

board speciﬁcation diagram for the PC

board foot pattern.

• Self alignment may not always work as

expected; therefore, please carefully

adjust the position of the terminals and

pattern.

High gain type

Humidity, %RH

Tolerance range

(Avoid freezing

when used at

temperatures

condensation)

lower than

(Avoid

0°C 32°F)

–20

–4 +32

+176

Temperature, °C °F

• The temperature of the proﬁle is

assumed to be a value measured with

the PC board of the terminal

Low gain type

• Touch to a object made of metal

• Touch of mutual sensors

Humidity, %RH

neighborhood.

5) Since static charge can damage the

sensor, bear in mind the following

handling precautions.

• Plastic containers should not be used to

store or transport the sensors since they

readily become charged.

• Please store or transport the sensor in

an environment that hinders the

occurrence of static electricity (for

example, places with 45% to 60%

humidity) and protect the product using

electrically conductive packaging.

• Implement static electricity prevention

measures once the product packaging

has been opened.

(1) Any personnel handling the sensor

should wear electrostatic clothing and be

body grounded.

(2) Place an electrically conducting board

on the work surface and ground any

devices used such as measuring

instruments and jigs.

• When you do the reﬂow solder to the

back of the PC board after the reﬂow of

the sensor, please execute ﬁxed

processing, for instance, with the

adhesive etc.

Tolerance range

(Avoid freezing (Avoid

when used at condensation

temperatures

lower than

0°C 32°F)

when used at

temperatures

higher than 0°C 32°F)

–20

+176

–4 +32

Temperature, °C °F

5. Mounting

t¹= 60 to 120s

Use lands on the PC boards to which the

sensor can be securely ﬁxed.

Recommended PC board is FR4

(thickness1.6 mm .063 inch). As for

mounting unrecommended PC board,

please verify quality in advance.

T1 = 150 to 180°C 302 to 356°F

T²= 230°C 446°F

T³= within 250°C 482°F

t²= within 30s

3) When you cut or fold the PC board

after mounting the sensor, be careful not

to stress to the soldered parts.

• Malfunctioning may occur if much noise

is present in the power supply used for

this sensor. In order to prevent, in

particular, superimposed noise, please

install the recommended capacitor

between the sensor input terminals

(between VDD and GND) closest to the

sensor (a position within 20 mm .787 inch

of the PC pattern length). However,

please reselect an ideal capacitor after

performing tests on the actual equipment.

• Since the top surface (where the part

number is visible) of the sensor is GND,

please make sure that the metallic parts

of other components do not come into

contact.

4) Solder reworking

• Finish reworking in one operation.

• For reworking of the solder bridge, use

a soldering iron with a ﬂat tip. Please do

not add more ﬂux when reworking.

• The temperature of the soldering tip

must be under the above-mentioned

temperature.

5) The sensor terminals are designed to

be exposed, so contact of the terminals

with metal shards and the like will cause

output errors. Therefore, please be

careful not to touch the terminals with the

metal piece or the hand.

(3) Use a soldering iron with a low leak

current or else ground the tip.

(4) Make sure that customer equipment

used for device assembly is grounded.

• Use a regulated power supply as the

power supply. Otherwise, power supply

superimposed noise may cause the

sensors to malfunction.

ASCTB22E 201201-T

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

Infrared Array Sensor Grid-EYE (AMG88)

as soon as possible (within 1 week

30°C 86°F/60% R.H.).

• The case of other damage caused by

the failure or defect of the product.

• The case that the product condition

changed by handling, storage and/or

transportation after delivery.

• The case caused by the phenomenon

which has never been discovered and is

impossible to be foreknown with the

existing technologies.

• The case of force majeure, such as acts

of God, public enemy or war, ﬁres, ﬂoods

and any other causes beyond the control

of the people concerned.

6) To prevent the insulation of the PC

board after soldering, please be careful

not to place the chemicals on the sensor

when coating.

• If the sensors are to be left in storage for

a considerable period after the moisture-

proof package has been unsealed, it is

recommended to keep them in another

moisture-proof bag containing silica gel

(within 3 months at the most).

*When mounting with solder, if thermal

stress is applied to sensors that have

absorbed moisture, the moisture will

vaporize, swelling will occur, and the

inside of the package will become

stressed. This may cause the package

surface to blister or crack. Therefore,

please take caution and observe the

soldering conditions.

7. Connections

1) Please perform connections correctly

in accordance with the terminal

connection diagram. In particular, be

careful not to reverse wire the power

supply as this will cause damage or

degrade to the sensor.

2) Please do not connect wires in an

empty terminal. It causes the sensor

breakdown.

3) When using the sensors with cables, it

is recommended that cables which are

shielded and as short as possible be

used in order to safeguard against the

effects of noise.

11. Export control

[To customers in Japan]

This product is restricted under Japan’s

“Foreign Exchange and Foreign Trade

Law.” An export permit from the

Japanese government is required when

you export or take this product outside

Japan. (As of Apr.2011)

10. Special remarks

Although the best attention will be paid

for the quality controls of the products,

please consider the followings:

8. Cleaning

1) To prevent unexpected failures as

much as possible under the conditions

not shown in this speciﬁcations, please

let us know the detailed information on

the application, such as the

This product may not be used for any

purpose other than those speciﬁed.

Reselling the product to third parties is

prohibited. When disposing of the

product, it must ﬁrst be converted into

non-reusable and non-controlled form.

[To customers outside Japan]

This product is restricted under Japan’s

laws and regulations relating to security

export control (Foreign Exchange and

Foreign Trade Law).We have obtained an

export permit from the Japanese

government to sell or provide this product

to your company, subject to the following:

This product may not be used for any

purpose other than those speciﬁed. This

product may be subject to further export

restrictions under the laws and

regulations of other countries (including

your own). Reselling the product to third

parties is prohibited. When disposing of

the product, it must ﬁrst be converted into

non-reusable and non-controlled form.

Avoid ultrasonic cleaning since this may

cause breaks or disconnections in the

wiring.

9.Transportation and storage

1) Extreme vibration and shock during

transport will damage the sensor. Handle

the outer box and reel with care.

2) Storage under extreme conditions will

cause soldering degradation, external

appearance defects, and deterioration of

the characteristics. The following storage

conditions are recommended.

environmental, operational and mounting

condition.

2) By any chance, if the failure of the

product is considered to cause a

personal injury or death or property

damage, the safety rate should be added

to the speciﬁed values shown in this

speciﬁcations and the dual safety

structure or circuit is recommended to be

taken from the stand point of the product

liability indemnity.

3) We will either repair or replace any

products or parts there of which prove to

be defective against only the items

written in this speciﬁcations within 1 year

from the date of products acceptance at

the site of delivery. Following cases are

not covered by this guarantee.

• Temperature: 0 to 45°C 32 to 113°F

• Humidity: less than 70% R.H.

• Atomosphere: No harmful gasses such

as sulfurous acid gas, minimal dust.

3) The sensors are sensitive to moisture

and come in moisture-proof packages.

Observe the following cautions when

storing.

• After the moisture-proof package is

unsealed, take the sensors out of storage

ASCTB22E 201201-T

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

AMG8832 [PANASONIC]

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