AREA&

LIGHT GAUGING

PART

LABEL&

ULTRASONIC

 

SLOT

MEASURING

lUMINESCENCE

SCREENS

&

 

COLOR

 

LIGHT

TEMPERATURE

 

LIGHT-TO-

PICK

RADAR

 

LASER RETRO

LASER DIFFUSE

BRACKETS

PAGE 372

QD CABLES

12-Pin M16

PAGE 418

REFLECTORS

PAGE 425

MEASUREMENT & INSPECTION

L-GAGE®LT7

Highly Accurate

Time-of-Flight Laser

Gauging Sensors

Available in extremely long-range retroreflective models with ranges to 250 m or in diffuse models with ranges to 10 m

Features TEACH-mode programming, using either integrated push buttons or a serial interface

Provides ongoing LCD display of sensing distance in millimeters or hundredths of an inch

Delivers excellent ±10 mm linearity

Offers choice of RS-422 or SSI-compatible serial connection

Uses visible Class 2 alignment laser for accurate alignment

Provides quick warmup to minimize drift

Discrete outputs or analog and discrete models

• Diffuse models provide 2 discrete outputs (PNP) and one 4 to 20 mA output for long-range precision background suppression up to 10 m.

• Retroreflective models offer two discrete outputs (PNP) for extremely long-range sensing.

• All models offer two alarm outputs with ongoing LCD display for easy troubleshooting.

Retroreflective models

• Ideal for long-range automated storage and retrieval applications

• Features ±2 mm resolution

Diffuse models

• Features dark-color performance, ideal for automotive applications

• Offers ±4 mm resolution

 

Status

2-line digital display

Indicator

of sensing distance

LED

Programming push buttons

Integral 12-pin

M16 QD connector

Operating Mode

Laser Class 1

Setup Mode

Laser Class 2

Do not stare into beam

250 . . .

LT7 Sensing Ranges

Diffuse models with gray targets: 0.5 - 7 m

Diffuse models with white targets: 0.5 - 10 m

Retroreflective models with specified reflector: 0.5 - 250 m

Meters

10

9

8

7

6

5

4

3

2

1

248 More information online at bannerengineering.com

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Banner L-GAGE manual GAGELT7, Highly Accurate Time-of-Flight Laser Gauging Sensors, Retroreflective models, Diffuse models