SBF1 Datasheet, PDF(5/5 Page) List of Unclassifed Manufacturers – Compact modular self-contained photoelectric sensing controls

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SBF1 Datasheet, PDF (5/5 Pages) List of Unclassifed Manufacturers – Compact modular self-contained photoelectric sensing controls

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MULTI-BEAM 3- & 4-wire Scanner Blocks

Sensing Mode

Models

Excess Gain

Beam Pattern

FIBER OPTIC Mode

(glass fiber optics)

HIGH-SPEED SCANNER BLOCK

OPPOSED MODE

OBJECT

RETROREFLECTIVE MODE

RETRO TARGET

OBJECT

DIFFUSE MODE

OBJECT

SBF1

Range: see excess gain

curves

Response: 1ms on/off

Repeatability: 0.3ms

Beam: infrared, 940nm

Fiber optic information:

IT13S: individual assembly

.06in (1,5mm) dia. bundle

IT23S: individual assembly

.12 in. (3mm) dia. bundle

BT13S: bifurcated assem-

bly, .06 in. (1,5mm) dia.

bundle

BT23S: bifurcated assem-

bly, .12 in. (3mm) dia.

bundle

L9: .5in. (12mm) dia. lens

L16F: 1.0 in. (25mm) dia.

lens

For information on the

complete line of glass fiber

optics, see Banner product

catalog.

1000

100

SBF1

Opposed mode,

with IT23S fibers

with

L16F

lenses

no lenses

with

lenses

.1 FT

1 FT

10 FT

DISTANCE

100 FT

1000

E 100

SBF1

Retroreflective mode,

with BRT-3 reflector

and BT13S fibers

II 10

.1 FT

with

lenses

with

L16F

lenses

1 FT

10 FT

DISTANCE

100 FT

1000

SBF1

E 100

Diffuse mode

(Range based on 90% reflectance

white test card)

with

BT13S

fibers

.1 IN

with

BT23S fibers

1 IN

10 IN

DISTANCE

100 IN

3 SBF1 opposed mode

NO LENSES

IT13S fibers

IT23S fibers

OPPOSED DISTANCE--INCHES

SBF1

L9 LENS

with BT13S fibers

and BRT-3 reflector

L16F LENS

16 20

DISTANCE TO REFLECTOR--FEET

.075

.05

.025

.05

.075

BT13S

SBF1

BT23S

1.0

1.5

2.0 2.5

DISTANCE TO 90% WHITE TEST CARD--INCHES

Fiber optics are often used to sense small parts. Small parts or narrow profiles which move at a high rate of speed can require sensors with fast response times for

reliable detection. High speed fiber optic sensors are ideal for sensing gear or sprocket teeth or other targets in applications involving counters or shift registers for

position control. Selection of the fiber optic sensing tip should involve matching the effective beam of the fiber to the profile of the part to be sensed to maximize

the time that the part is sensed and/or the time between adjacent parts. Combining the best selection of fiber tip geometry with a high speed sensor will result in

a highly repeatable position sensing system. The model BT13S fiber optic assembly used with a model L9 or L16F lens and a high speed scanner block is an excellent

system for retroreflective code reading or for almost any short range retroreflective sensing application. Response time of a MULTI-BEAM sensor is also a function

of the power block. For this reason, only power blocks which switch dc (e.g. PBT, PBP, PBO, PBAT, etc) should be used if the fast response time of the scanner

block is to be utilized.

FIBER OPTIC Mode (glass fiber optics)

VERY HIGH-SPEED SCANNER

BLOCK

OPPOSED MODE

OBJECT

SBF1MHS

Range: see excess gain

curves

Response: 300 microsec-

onds on/off

Repeatability:

100 microseconds

Beam: infrared, 940nm

1000

C 100

A 10

with IT13S

fibers

SBF1MHS

with IT23S

fibers and

L9 lenses

with IT23S

fibers

.1 IN

1 IN

10 IN

DISTANCE

100 IN

SBF1MHS opposed mode

IT13S

IT23S

IT23S w/L9

32 40

OPPOSED DISTANCE--INCHES

DIFFUSE MODE

OBJECT

NOTE: gain curves illus-

trate that faster response

comes at the expense of

lower gain.

For complete information on glass

fiber optic assemblies and accessories,

see Banner product catalog.

1000

100

SBF1MHS

(Diffuse mode,

ranges based on

90% reflectance

white test card)

A 10

with BT23S

fiber

with BT13S

1 fiber

.01 IN

.1 IN

1 IN

DISTANCE

10 IN

.075

.05

.025

.05

.075

SBF1MHS diffuse mode

BT13S fibers

BT23S fibers

1.0

DISTANCE TO 90% WHITE TEST CARD--INCHES