Mounting the sensor, Wiring the sensor, Configuring the sensor – Rockwell Automation 42EF LaserSight RightSight Photoelectric Sensors User Manual

2

Table 1: User Interface

LED Color

State

Status—

Teachable and Adjustable Versions

Status—

Transmitted Beam Receiver

Yellow

OFF

Output de-energized

ON

Output energized

Flashing

NA

Output SCP active

Orange

OFF

Normal operation

Margin <2.5x

ON

Teach Mode Active

Margin >2.5x

Flashing

Teach Mode Active

NA

Green

OFF

Sensor not powered

Sensor not powered, output on,

or SCP active

ON

Sensor powered

Flashing

Unstable margin condition (0.7x to 2.0x) or

output SCP active

NA

Note: For laser models, output and margin LEDs flash simultaneously when SCP active.

Mounting the Sensor

Securely mount the sensor on a firm, stable surface or support. A mounting which is

subject to excessive vibration or shifting may cause intermittent operation. Refer to

www.ab.com/ sensors for information on vertical and horizontal adjustment as well as

fixed mounting brackets. The sensor is supplied with a single 18 mm mounting nut for

either nose or base mounting options.

Wiring the Sensor

The RightSight photoelectric sensor is available in either a 2 m cable or 4--pin DC micro

quick-disconnect as identified on page 1. Rockwell Automation recommends the use of

the 889D Series of cordsets and patchcords for the QD models. All external wiring

should conform to the National Electrical Code and all applicable local codes.

Configuring the Sensor

LaserSight RightSight photoelectric sensors are available in teachable, adjustable, and

non--adjustable versions. Availability is determined by the sense mode.

S

Standard Diffuse: Teachable and manual adjustable (potentiometer)

S

Polarized Retroreflective: Teachable

S

Transmitted Beam: No adjustment

Follow the setup procedure below for the version of RightSight being configured.

Teachable Versions
LaserSight RightSight photoelectric sensors with a teach function contain a pushbutton

rather than a manual adjustment knob for adjusting the sensors sensitivity level. This

function allows the sensor to “learn” both the light and dark conditions (background and

target) presented to it and automatically adjusts sensitivity to its optimal level for the

application. Follow the steps below to configure the sensor for your specific application.

Typical Response Curves

Standard Diffuse—Beam Pattern

Polarized Retroreflective—

Beam Pattern

0

100

(3.9)

Be

am

Di

am

et

er

(m

m)

Distance [mm (in.)]

--2

0

1

200

(7.8)

400

(15.7)

0

20

(65.6)

Be

am

Di

am

et

er

(m

m

)

Distance [m (ft)]

--6

0

6

5

(16.4)

100

(328)

1

(3.3)

Opera

tin

g

M

argi

n

Distance [m (ft)]

1000

100

10

1

10

(32.8)

Transmitted Beam—Margin

1

(0.04)

100

(3.94)

Opera

tin

g

M

argi

n

Distance [mm (in.)]

100

10

1

10

(0.39)

1000

(39.4)

Standard Diffuse—Margin

1

(3.3)

100

(328)

O

pe

rati

ng

M

ar

gi

n

Distance [m (ft)]

100

10

1

10

(32.8)

0.01

(0.03)

Polarized Retroreflective—Margin

0.1

(0.33)

92--118

92--39

--1

2

300

(11.8)

--4

--2

2

4

10

(32.8)

15

(49.2)

1. Ensure that the sensor is securely mounted and wired. The green LED will be

illuminated indicating that power is applied to the sensor.

2. With the sensor pointed at the light condition (target for diffuse, reflector for polarized

retroreflective), press the pushbutton for five seconds and then release. The green

PWR/STAB LED will turn OFF and the orange SET/SCP LED will turn ON and start

flashing to indicate that the sensor has learned the light condition.

3. Present the dark condition to the sensor (no target for diffuse, target that blocks

reflector for polarized retroreflective) and press the teach button for five seconds and

then release. The orange SET/SCP LED will continue to flash while the teach

pushbutton is pressed. The green PWR/STAB LED will turn ON after the teach

button is released, indicating that the sensor is ready for normal operation.