Cognex In-Sight 8402C Manuel utilisateur

In-Sight

®

8000 Series

Vision System

Manual

2019 October 02

Revision: 5.8.0.1

Regulations/Conformity

Note: For the most up-to-date CE declaration and regulatory conformity

information, please refer to the Cognex online support site:

http://www.cognex.com/Support.

Safety and Regulatory

Manufacturer

Cognex Corporation

One Vision Drive

Natick, MA 01760 USA

In-Sight 8200/8200C: Regulatory Model 1AAW

In-Sight 8400/8400C: Regulatory Model 1AAW

In-Sight 8401/8401C: Regulatory Model 1AAW

In-Sight 8402/8402C: Regulatory Model 1AAW

In-Sight 8405: Regulatory Model 1AAU

FCC

FCC Part 15, Class A

This device complies with Part 15 of the FCC Rules. Operation is subject to the

following two conditions: (1) this device may not cause harmful interference; and (2)

this device must accept any interference received, including interference that may

cause undesired operation. This equipment generates, uses, and can radiate radio

frequency energy and, if not installed and used in accordance with the instruction

manual, may cause harmful interference to radio communications. Operation of this

equipment in a residential area is likely to cause harmful interference in which case the

user will be required to correct the interference at their own expense.

KCC In-Sight 8200/8200C: Regulatory Model 1AAW: MSIP-REM-CGX-1AAW

In-Sight 8400/8400C: Regulatory Model 1AAW: MSIP-REM-CGX-1AAW

In-Sight 8401/8401C: Regulatory Model 1AAW: MSIP-REM-CGX-1AAW

In-Sight 8402/8402C: Regulatory Model 1AAW: MSIP-REM-CGX-1AAW

In-Sight 8405: Regulatory Model 1AAU: MSIP-REM-CGX-1AAU

NRTL TÜV SÜD AM SCC/NRTL OSHA Scheme for UL/CAN 61010-1.

CB TÜV SÜD AM, IEC/EN 61010-1. CB report available upon request.

RoHS Compliant to the latest applicable Directive.

1

China RoHS

Hazardous Substances 有害物质

Part Name

部件名称

Lead (Pb)

铅

Mercury

(Hg)

汞

Cadmium

(Cd)

镉

Hexavalent

Chromium

(Cr (VI))

六价铬

Polybrominated

biphenyls (PBB)

多溴联苯

Polybrominated

diphenyl ethers

(PBDE)

多溴二苯醚

Regulatory

Model 1AAU

Regulatory

Model 1AAW

X O O O O O

This table is prepared in accordance with the provisions of SJ/T 11364.

这个标签是根据 SJ / T 11364 的规定准备的。

O: Indicates that said hazardous substance contained in all of the homogeneous materials for this part is below the

limit requirement of GB / T26572 - 2011.

表示本部件所有均质材料中含有的有害物质低于 GB / T26572 - 2011 的限量要求。

X: Indicates that said hazardous substance contained in at least one of the homogeneous materials used for this

part is above the limit requirement of GB / T26572 - 2011.

表示用于本部件的至少一种均质材料中所含的危害物质超过 GB / T26572 - 2011 的限制要求。

2

For European Community Users

Cognex complies with Directive 2012/19/EU OF THE EUROPEAN PARLIAMENT

AND OF THE COUNCIL of 4 July 2012 on waste electrical and electronic equipment

(WEEE).

This product has required the extraction and use of naturalresources for its

production. It may contain hazardous substances that could impact health and the

environment, if not properly disposed.

In order to avoid the dissemination of those substances in our environment and to

diminish the pressure on the naturalresources, we encourage you to use the

appropriate take-backsystems for product disposal. Those systems will reuse or

recycle most of the materials of the product you are disposing in a sound way.

The crossed out wheeled bin symbol informs you that the product should not

be disposed of along with municipal waste and invites you to use the appropriate

separate take-backsystemsfor product disposal.

If you need more information on the collection, reuse, and recycling systems, please

contact your local or regional waste administration.

You may also contact your supplier for more information on the environmental

performance of this product.

3

Precautions

Observe these precautions when installing the Cognex product, to reduce the risk of

injury or equipment damage:

l An IEEE 802.3af compliant, and UL or NRTL listed, Power over Ethernet

(PoE) power source rated Class 0, 2, 3 or 4 must be used. Any other

voltage creates a risk of fire or shock and can damage the components.

Applicable national and local wiring standards and rules must be followed.

l To reduce the risk of damage or malfunction due to over-voltage, line noise,

electrostatic discharge (ESD), power surges, or other irregularities in the

power supply, route all cables and wires away from high-voltage power

sources.

l Do not install Cognex products where they are directly exposed to

environmentalhazards such asexcessive heat, dust, moisture, humidity,

impact, vibration, corrosive substances, flammable substances, or static

electricity.

l Do not expose the image sensor to laser light; image sensors can be

damaged by direct, or reflected, laser light. If your application requires the

use of laser light that may strike the image sensor, a lens filter at the

corresponding laser's wavelength isrecommended. Contact your local

integrator or application engineer for suggestions.

l The In-Sight vision system does not contain user-serviceable parts. Do not

make electrical or mechanical modifications to In-Sight vision system

components. Unauthorized modifications may void your warranty.

l Changes or modifications not expressly approved bythe party responsible

for regulatory compliance could void the user’s authority to operate the

equipment.

l Service loops should be included with all cable connections.

4

l Cable shielding can be degraded or cablescan be damaged or wear out

more quickly if a service loop or bend radius is tighter than 10X the cable

diameter. The bend radius must begin at least six inches from the

connector.

l This device isa business-use (ClassA) EMC-compliant device. The seller

and user are advised to be aware of this fact. This device is intended for use

in areas outside the home.

l This device should be used in accordance with the instructions in this

manual.

l All specifications are for reference purpose only and may be changed

without notice.

5

6

Installation

This section describes the connection of the vision system to its standard

components and accessories. For a complete list of options and accessories, contact

your Cognex sales representative.

Installation procedures and specifications are presented in detail in the In-Sight

®

8000 Series Vision System Reference Guide, which is installed with In-Sight Explorer

software.

Note: Cables are sold separately.

CAUTION: Allcable connectors are “keyed” to fit the connectors on the vision

system; do not force the connections or damage may occur.

7

Mount the Vision System

Note:

l For the mounting holes closest to the lensopening, the thread length

of the M3 screw should not exceed 4.5mm. For the mounting holes

closest to the connectors, the thread length of the M3 screw should

not exceed 1.6mm. Thisdoes not include the thickness of the

mounting material used.

l The accessory mounting kit includes a mounting block and M3 screws

(quantity 4) for mounting the vision system and securing it to a

mounting surface. The mounting block also provides 1/4-20 and M6

mounting holes for attaching the vision system to a mounting surface.

l It is recommended that the vision system be grounded, either by

mounting the vision system to a fixture that is electricallygrounded or

by attaching a wire from the vision system's mounting fixture to frame

ground or Earth ground.

1. Align the holes on the mounting surface with the mounting holes on the

vision system.

2. Insert the M3 screwsinto the mounting holes and tighten using a 2.5mm hex

wrench; the maximum torque is 0.3Nm (2.5 in-lb).

Install the Lens

1. Remove the protective film covering the threaded lens opening, if present.

2. Attach a C-Mount lens to the vision system. The exact lensfocal length

needed depends on the working distance and the field of view required for

your machine vision application.

8

Connect the Inputs and Outputs (Optional)

The vision system’s I/O connector supplies connections for the acquisition trigger and

high-speed outputs.

Note: The vision system must be Online for the discrete inputs and outputs to

function. Refer to the In-Sight

®

Explorer Help file for detailson configuring the

discrete input and output lines.

Option 1: Connect the Breakout Cable

CAUTION: A ferrite is included with the In-Sight 8405 vision system standard

components. To reduce emissions, the ferrite must be attached to the

Breakout cable.

Note:

l I/O wiring or adjustments to I/Odevices should be performed when

the vision system is not receiving power.

l The Ethernet cable should be unplugged or the PoE source powered

down before making adjustments to the connections at the far end of

the Breakout cable.

l Unused wires can be clipped short or tied back using a tie made of

non-conductive material.

1. If installing the In-Sight 8405 vision system, attach the ferrite around the

Breakout cable, adjacent to the strain relief on the cable.

2. Connect the Breakout cable's M8 connector to the vision system's I/O

connector.

9

3. Connect the trigger and high-speed I/O wiresto an appropriate device (for

example, a PLC, trigger sensor or strobe light).

Option 2: Connect the I/O Module Cable

CAUTION: A ferrite is included with the In-Sight 8405 vision system standard

components. To reduce emissions, the ferrite must be attached to the I/O

Module cable.

Note:

l The CIO-MICRO I/O module supports In-Sight 8000 series vision

systems with firmware version 5.3.0 and higher.

l I/O wiring or adjustments to I/Odevices should be performed when

the vision system is not receiving power.

1. If installing the In-Sight 8405 vision system, attach the ferrite around the I/O

Module cable, adjacent to the strain relief on the cable.

2. Connect the I/O Module cable’s M8 connector to the vision system’sI/O

connector.

3. Connect the I/O Module cable’s DB15 connector to the I/Omodule’s I/O

connector.

4. Restore power to the 24VDC power supplyand turn it on if necessary.

10

Connect the Ethernet and Power

The vision system’s PoE connector provides the Ethernet connection for network

communications and supplies power to the vision system. The following steps

illustrate how to connect the vision system to the In-Sight CIO-MICRO I/O module. If

the CIO-MICROI/Omodule is not used, a third-party PoE injector or a PoE switch

must be used to supplypower to the vision system.

Note: The CIO-MICRO I/O module does not support 1000 BaseT pass-

through operation. If 1000 BaseT operation is required, you must connect an

RJ-45 LAN cable from a Gigabit PoE switch to the I/O module’s LAN port and

connect the vision system’s Ethernet cable to the Gigabit PoE switch.

Connect the Power Wires

CAUTION: Never connect the I/O module to a power source other than

24VDC. Any other voltage creates a risk of fire or shock and can damage the

hardware. Do not connect the 24VDC power source to any terminalsother

than the 24VDC + and – power terminals.

1. Verify that the 24VDC power supply being used is unplugged and not

receiving power.

2. Use a screwdriver to loosen the I/O module's power terminals (labeled

24VDC + and –).

3. Insert the 24VDC + and – wires (16 - 22 AWG, solid or stranded wire) from

the power supplyinto the 24VDC + and – terminals on the I/O module.

4. Tighten the screw terminals with the screwdriver to secure the wire leads in

the terminal block; the maximum torque is0.1921 Nm (1.7 in-lb).

11

Connect the Frame Ground Wire

Connect a frame ground wire to the I/O module’s Frame Ground terminal. Connect

the other end of the frame ground wire to frame ground.

CAUTION: The shield ground connections of the RS-232 port, LAN port, PoE

port, I/O port and Frame Ground terminalare internally connected. The

system grounding is designed to be at a zero ground potential; this zero

ground potential extends through the cable and to peripheral equipment (e.g.

a vision system, PLC, etc.). To ensure safe operating conditions, it is strongly

recommended that all ground connections are checked to ensure that a zero

ground potential is met.

Connect an RJ-45 LAN Cable

To connect the vision system to an Ethernet network, plug a LAN cable (RJ-45

connector) into the I/O module’s LAN port and connect the other end of the cable to a

switch/router or PC, as applicable.

12

Connect the Ethernet Cable

CAUTION:

l The Ethernet cable must be shielded. For the In-Sight 8405 vision

system, Cognex strongly recommends Cat 6 or Cat 7 Ethernet cables

with S/STP shielding.

l The Ethernet cable shield must be grounded at the far end. If using a

PoE injector, a ground wire should be connected from the Ethernet

shield at the PoE injector to frame ground or Earth ground, and a

digital voltmeter used to validate the grounding. If using a PoE switch,

it should have a metal case, with the case grounded to frame ground

or Earth ground.

l The I/O module’s PoE port provides power and Ethernet connectivity

to the In-Sight 8000 series vision system. Connecting third-party

devices to the I/O module's PoE port could damage the I/O module.

1. Connect the Ethernet cable’s M12 connector to the vision system’sENET

connector.

If installing the In-Sight 8405 vision system and using a compatible

horizontal screw-locking Ethernet cable, use a screw driver to tighten the

connector screws until snug, to secure it to the vision system. The screws

must be tight to ensure a reliable connection.

2. Connect the Ethernet cable’s RJ-45 connector to the I/O module’s PoE port.

3. Restore power to the I/O module’s24VDC power supply and turn it on if

necessary.

13

Install Software and Documentation

To configure an In-Sight vision system, In-Sight Explorer software must be installed

on a networked PC. In-Sight software is available asa free download from the In-

Sight support site: http://www.cognex.com/Support/InSight.

Log On to the Vision System

1. Open the In-Sight Explorer software.

2. From the Get Connected Application Step, select your In-Sight vision

system from the Select an In-Sight Sensor or Emulator group box and press

the Connect button.

In-Sight 8200 and 8400 Series Vision System

Specifications

Specifications 8200 8200C 8400 8400C 8401 8401C 8402 8402C

Case Temperature

1

0°C to 50°C (32°F to 122°F)

Storage Temperature -20°C to 80°C (-4°F to 176°F)

Humidity < 80% non-condensing

Protection

IP40 with cables and lens attached.

Shock (Shipping and

Storage)

IEC 60068-2-27: 18 shocks (3 shocks in each polarity in each (X, Y, Z) axis) 80 Gs

(800m/s

2

at 11ms, half-sinusoidal)

Vibration (Shipping and

Storage)

IEC 60068-2-6: vibration test in each of the three main axis for 2 hours @ 10 Gs (10 to

500 Hz at 100m/s

2

/ 15mm)

1

Case temperature can be verified using the EV GetSystemConfig(“Internal.Temperature”) Extended Native Mode

command. When issued, it returns the vision system's internal temperature in degrees Celsius, which will be ±5

degrees above the vision system case temperature. Refer to the In-Sight

®

Explorer Help file for more information.

Additional cooling measures are required if the case temperature cannot be kept below 50°C. Examples of such

measures include: mounting the vision system to a heat sink using the M3 mounting screws, reducing the ambient

temperature and ensuring there is air flow over the vision system.

14

In-Sight 8405 Vision System Specifications

Specifications 8405

Case Temperature

1

0°C to 50°C (32°F to 122°F)

Storage Temperature -20°C to 80°C (-4°F to 176°F)

Humidity < 80% non-condensing

Protection IP30 with cables and lens attached.

Shock (Shipping and

Storage)

IEC 60068-2-27: 18 shocks (3 shocks in each polarity in each (X, Y, Z) axis) 80 Gs

(800m/s

2

at 11ms, half-sinusoidal)

Vibration (Shipping and

Storage)

IEC 60068-2-6: vibration test in each of the three main axis for 2 hours @ 10 Gs (10 to

500 Hz at 100m/s

2

/ 15mm)

1

Case temperature can be verified using the EV GetSystemConfig(“Internal.Temperature”) Extended Native Mode

command. When issued, it returns the vision system's internal temperature in degrees Celsius, which will be ±5

degrees above the vision system case temperature. Refer to the In-Sight

®

Explorer Help file for more information.

Additional cooling measures are required if the case temperature cannot be kept below 50°C. Examples of such

measures include: mounting the vision system to a heat sink using the M3 mounting screws, reducing the ambient

temperature and ensuring there is air flow over the vision system.

15

規制情報/適合宣言

注 : CE 適合宣言および規制に関する最新情報については、Cognex オンライン

サポートセンターにアクセスしてください。http://www.cognex.com/Support

安全規制

製造者

Cognex Corporation

One Vision Drive

Natick, MA 01760 USA

In-Sight 8200/8200C: 規制モデル 1AAW

In-Sight 8400/8400C: 規制モデル 1AAW

In-Sight 8401/8401C: 規制モデル 1AAW

In-Sight 8402/8402C: 規制モデル 1AAW

In-Sight 8405: 規制モデル 1AAU

FCC

FCC (アメリカ連邦通信委員会) 規則第15 章クラス A 準拠

本装置は FCC 規則第 15 章に準拠しており、次の2 つの条件を前提として動作します。

(1) 本装置が有害な干渉を起こさないこと。(2) 本装置が干渉 (誤動作を引き起こす恐

れのある干渉を含む) を受けても耐えること。本装置は高周波を発生・使用・放射するこ

とがあります。取扱説明書の指示に従わずに設置・使用した場合、無線通信に有害な干

渉を与える可能性があります。本装置を住宅地で使用すると有害な電波障害を起こす恐

れがあり、この場合、使用者の負担で障害を是正する必要があります。

KCC In-Sight 8200/8200C: 規制モデル 1AAW: MSIP-REM-CGX-1AAW

In-Sight 8400/8400C: 規制モデル 1AAW: MSIP-REM-CGX-1AAW

In-Sight 8401/8401C: 規制モデル 1AAW: MSIP-REM-CGX-1AAW

In-Sight 8402/8402C: 規制モデル 1AAW: MSIP-REM-CGX-1AAW

In-Sight 8405: 規制モデル 1AAU: MSIP-REM-CGX-1AAU

NRTL TÜV SÜD AM SCC/NRTL OSHA Scheme for UL/CAN 61010-1

CB TÜV SÜD AM, IEC/EN 61010-1.請求により、CB 報告書を提供します。

RoHS 適用可能な最新の指令に準拠。

1

中国 RoHS

有害物質有害物质

部品名

部件名称

鉛 (Pb)

铅

水銀 (Hg)

汞

カドミウム

(Cd)

镉

六価クロム

(Cr (VI))

六价铬

ポリ臭素化ビフェ

ニル (PBB)

多溴联苯

ポリ臭素化ジフェニル

エーテル (PBDE)

多溴二苯醚

規制モデル

1AAU

規制モデル

1AAW

X O O O O O

本表は、SJ/T 11364 規定に従って作成されました。

这个标签是根据SJ / T 11364 的规定准备的。

O: この部品のすべての均質材料に含まれる有害物質が、GB / T26572 - 2011 の制限要件を下回っていることを

示します。

表示本部件所有均质材料中含有的有害物质低于GB / T26572 - 2011 的限量要求。

X: この部品に使用されている均質材料の少なくとも 1 つに含まれている有害物質が、GB / T26572 - 2011 の制

限要件を超えていることを示します。

表示用于本部件的至少一种均质材料中所含的危害物质超过 GB / T26572 - 2011 的限制要求。

2

欧州共同体ユーザ

コグネックスは、電気・電子機器廃棄物に関する 2012 年 7 月 4 日付け欧州議会・

理事会指令 2012/19/EU (WEEE) を順守しています。

本製品の製造には、天然資源の抽出と使用が必要とされます。適切に廃棄されない場

合、本製品に含まれている有害物質が、健康および環境に影響を与える可能性があり

ます。

有害物質が環境に悪影響を与えないようにするため、また天然資源に対する影響を軽

減するため、製品廃棄時には、適切な回収システムを利用することを推奨します。これら

のシステムは、健全な方法で製品の大半を再利用したり、リサイクルしたりします。

クロスアウトされた車輪付きゴミ箱マークは、製品が一般廃棄物とともに処分さ

れるべきではないことを示し、製品廃棄時に適切な分別回収システムを使用するように

呼びかけています。

回集、再利用、リサイクルシステムの詳細については、地方自治体の廃棄物管理局にお

問い合わせください。

本製品の環境に与える影響についての詳細は、販売代理店までお問い合わせくださ

い。

3

注意事項

人体への障害や機器の損傷を防ぐために、Cognex 製品を設置・運用する際には次の

注意事項を厳守してください。

l IEEE 802.3af および UL または NRTL 規格に準拠した、定格クラス 0、2、3

または 4 の PoE (パワーオーバイーサネット) 電源を使用してください。異なる

電源を使用すると、火災や感電の危険性が生じ、コンポーネントに損傷を与え

る原因となります。必要に応じて、国および地域の配線規格および規則に従っ

てください。

l 過電圧、回線ノイズ、静電気放電 (ESD)、電力サージ、その他の電源異常に起

因した損傷や誤作動を防止するために、ケーブルとワイヤはすべて高電圧電源

を避けて配線してください。

l 過度の熱、ほこり、水分、湿度、衝撃、振動、腐食性物質、可燃性物質、静電気

などの環境下に、Cognex 製品を設置しないでください。

l レーザー光線を画像センサに当てないでください。直接的または間接的にレー

ザー光線が当たると、画像センサが損傷する可能性があります。画像センサに

レーザー光線が当たるような場合には、対応するレーザーの波長に合わせたレ

ンズフィルタをお勧めします。お近くのシステムインテグレータやアプリケーショ

ンエンジニアにお尋ねください。

l In-Sight ビジョンシステムには、ユーザが修理できる部品はありません。電気

的または機械的な変造を In-Sight ビジョンシステムに加えないでください。許

可なく変造を行った場合は、保証が無効になります。

l 各種規格関連団体からの明示的な了承なしに変更、変造を行った場合は、本

機器の使用権を失う可能性があります。

l ケーブルの配線時はサービスループ (余長ループ) を設けてください。

4

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