T18SN6R BANNER ENGINEERING, T18SN6R Datasheet - Page 2

T18SN6R

Manufacturer Part Number

T18SN6R

Description

Photoelectric Sensor

Manufacturer

BANNER ENGINEERING

Type

Opposed Moder

Datasheets

1.T186EQ.pdf (6 pages)

2.T18SP6FF25.pdf (2 pages)

Specifications of T18SN6R

Output Current

150mA

Sensor Output

NPN

Supply Voltage Range Dc

10V To 30V

Sensor Input

Optical

Output Type

Transistor

Sensing Range Max

20m

Contact Current Max

150mA

Switch Terminals

Cable

Brand/series

T18

Current, Consumption

20 mA

Current, Leakage

1 μA (Max.) @ 30 VDC (OFF-State)

Current, Switching

150 mA

Ip Rating

IP69K

Light Source

Infrared LED, 950 nm

Material, Housing

Polycarbonate

Material, Lens

Acrylic

Mounting Type

Threaded

Output

NPN

Primary Type

Photoelectric

Range, Measurement

20 mm

Response Time

3 ms (ON), 1.5 ms (OFF)

Sensing Mode

Opposed

Standards

UL Listed, CE Marked, CSA Certified

Technology

Photoelectric

Temperature, Operating

-40 to +70 °C

Termination

Cable

Voltage, Supply

30 VDC

Accessories Available

Cordsets, Brackets and Reflectors

Lead Free Status / Rohs Status

RoHS Exempt Product

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T18 Series self-contained fixed-field sensors are small, powerful, infrared diffuse mode

sensors with far-limit cutoff (a type of background suppression). Their high excess gain and

fixed-field technology allow them to detect objects of low reflectivity, while ignoring background

surfaces.

The cutoff distance is fixed. Backgrounds and background objects must always be placed

beyond the cutoff distance.

Fixed-Field Sensing – Theory of Operation

The T18FF compares the reflections of its emitted light beam (E) from an object back to

the sensor’s two differently aimed detectors, R1 and R2 (see Figure 1). If the near detector

(R1) light signal is stronger than the far detector (R2) light signal (see object A, closer than

the cutoff distance), the sensor responds to the object. If the far detector (R2) light signal is

stronger than the near detector (R1) light signal (see object B, beyond the cutoff distance), the

sensor ignores the object.

The cutoff distance for model T18FF sensors is fixed at 25, 50 or 100 millimeters (1", 2",

or 4"). Objects lying beyond the cutoff distance usually are ignored, even if they are highly

reflective. However, it is possible to falsely detect a background object, under certain

conditions (see Background Reflectivity and Placement).

In the drawings and discussion on these pages, the letters E, R1, and R2 identify how the

sensor’s three optical elements (Emitter “E”, Near Detector “R1”, and Far Detector “R2”) line

up across the face of the sensor. The location of these elements defines the sensing axis (see

Figure 2). The sensing axis becomes important in certain situations, such as those illustrated

in Figures 5 and 6.

Sensing Reliability

For highest sensitivity, position the target object for sensing at or near the point of maximum

excess gain. Excess gain curves for these products are shown on page 5. They show excess

gain vs. sensing distance for sensors with 25 mm, 50 mm, and 100 mm (1", 2", and 4")

cutoffs. Maximum excess gain for the 25 mm models occurs at a lens-to-object distance of

about 7 mm; for the 50 mm models, at about 10 mm; and for the 100 mm models, at about

20 mm. Sensing at or near this distance will make maximum use of each sensor’s available

sensing power. The background must be placed beyond the cutoff distance. (Note that the

reflectivity of the background surface also may affect the cutoff distance.) Following these two

guidelines will improve sensing reliability.

Background Reflectivity and Placement

Avoid mirror-like backgrounds that produce specular reflections. False sensor response will

occur if a background surface reflects the sensor’s light more strongly to the near detector, or

“sensing” detector (R1), than to the far detector, or “cutoff” detector (R2). The result is a false

ON condition (Figure 3). To cure this problem, use a diffusely reflective (matte) background,

or angle either the sensor or the background (in any plane) so the background does not reflect

light back to the sensor (see Figure 4). Position the background as far beyond the cutoff

distance as possible.

An object beyond the cutoff distance, either stationary (and when positioned as shown in

Figure 5), or moving past the face of the sensor in a direction perpendicular to the sensing

axis, can cause unwanted sensor triggering if more light is reflected to the near detector than

to the far detector. The problem is easily remedied by rotating the sensor 90° (Figure 6).

P/N 121526 rev. A

T18 Sensors — dc-Voltage Series

Fixed-Field Mode Overview

Sensor Setup

Banner Engineering Corp. • Minneapolis, MN U.S.A

www.bannerengineering.com • Tel: 763.544.3164

Figure 1. Fixed-field concept

Figure 2. Fixed-field sensing axis

Detector

Emitter

As a general rule, the most reliable sensing

of an object approaching from the side

occurs when the line of approach is parallel

to the sensing axis.

Near

Far

Elements

Receiver

Object is sensed if amount of light at R1

is greater than the amount of light at R2

Lenses

Object

R 1

R 2

Sensing

Range

Distance

Cutoff

Sensing

Axis

Background

Object B

T18SN6R BANNER ENGINEERING, T18SN6R Datasheet - Page 2

T18SN6R

Specifications of T18SN6R

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