SM2A312W [BANNER]
AC Voltage Series Sensor;
| 型号: | SM2A312W |
| 厂家: | 
Banner Engineering |
| 描述: | AC Voltage Series Sensor |
| 文件: | 总8页 (文件大小:549K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
®
MINI-BEAM AC Voltage Series Sensor
Quick Start Guide
Self-contained photoelectric sensors
Sensor Features
WARNING:
Gain (Sensitivity) Adjustment Screw
•
•
Do not use this device for personnel protection
Using this device for personnel protection could
result in serious injury or death.
•
This device does not include the self-checking
redundant circuitry necessary to allow its use in
personnel safety applications. A device failure or
malfunction can cause either an energized (on) or
de-energized (off) output condition.
Alignment Indicator Device (AID)*
Light/Dark Operate Select Switch
Clockwise: Light Operate
(outputs conduct when sensing
light is received).
Counterclockwise: Dark Operate
(outputs conduct when sensing
light is not received).
*U.S. Patent no. 4356393
Models
1
Model
Sensing Mode
Range
LED
SMA31E
Opposed Emitter
Opposed Receiver
3 m (10 ft)
SM2A31R
SMA31EL
SM2A31RL
SMA31EPD
Infrared, 880 nm
Opposed Emitter - Long Range
30 m (100 ft)
Opposed Receiver - Long Range
Opposed Emitter Clear Plastic Detection
0 to 300 mm (0 to 12 in)
Actual range varies, depending upon the light
transmission properties of the plastic material
being sensed.
SM2A31RPD
Opposed Receiver Clear Plastic Detection
Visible red, 650 nm
Infrared, 880 nm
SM2A312LV
SM2A312LVAG
SM2A312LP
SM2A312D
Non-Polarized Retroreflective
Polarized Retroreflective
5 m (15 ft)
50 mm to 2 m (2 in to 7 ft)
10 mm to 3 m (0.4 in to 10 ft)
380 mm (15 in)
Extended-Range Polarized Retroreflective
Diffuse
SM2A312DBZ
SM2A312W
SM2A312C
300 mm (12 in)
Divergent Diffuse
130 mm (5 in)
16 mm (0.65 in) Focus
43 mm (1.7 in) Focus
16 mm (0.65in) Focus
43 mm (1.7 in) Focus
16 mm (0.65 in) Focus
Infrared, 880 nm
SM2A312C2
SM2A312CV
SM2A312CV2
SM2A312CVG
SM2A312F
Convergent
Visible red, 650 nm
Visible green, 560 nm
Infrared, 880 nm
Glass Fiber Optic
Plastic Fiber Optic
Range varies, depending on sensing mode and
fiber optics used.
SM2A312FV
SM2A312FP
Visible red, 650 nm
Installation Instructions
Wiring Diagrams
The output type for all models is SPST solid-state 2-wire.
1
Standard 2 m (6.5 ft) cable models are listed.
•
•
To order the 9 m (30 ft) cable model, add the suffix “W/30” (for example, SMA31E W/30).
To order the 3-pin Micro-style QD model, add the suffix “QD” (for example, SMA31EQD).
Original Document
69942 Rev. F
12 June 2019
69942
®
MINI-BEAM AC Voltage Series Sensor
Emitters with Attached Cable
All Other Models with Attached Cable
Key
1. Brown
3. Blue
1
1
24–240 V ac
24–240 V ac
3
3
Load
Emitters with Quick Disconnect (3-pin Micro-Style)
All Other Models with Quick Disconnect (3-pin Micro-Style)
rd/bk
rd/bk
24-240V ac
rd/wh
24-240V ac
rd/wh
Load
gn
gn
Mount the Device
1. If a bracket is needed, mount the device onto the bracket.
2. Mount the device (or the device and the bracket) to the machine or equipment at the desired location. Do not tighten the mounting screws at
this time.
3. Check the device alignment.
4. Tighten the mounting screws to secure the device (or the device and the bracket) in the aligned position.
Sensor Alignment
Note: Follow proper electronic shock discharge (ESD) precautions when adjusting the Gain potentiometer or the LO/DO
switch.
Note: When turning the Light/Dark Operate Select switch, be careful not to damage the small tabs on the switch.
1. Using line-of-sight, position the MINI-BEAM sensor to its emitter (opposed-mode sensing) or to its target (all other sensing modes).
When using a retroreflective sensor, the target is the retroreflector (“retro target”). For diffuse or convergent sensing modes, the target is the
object to be detected.
2. Apply power to the sensor (and to the emitter, if using the opposed mode).
3. Using a small, flat-blade screwdriver, turn the 15-turn Gain control to maximum (the clockwise end of rotation).
The Gain control is clutched at both ends to avoid damage, and will “free-wheel” when either endpoint is reached.
If the MINI-BEAM sensor is receiving its light signal, the red LED Alignment indicator is ON and flashing at a rate proportional to the signal
strength (a faster flash rate = more signal).
4. Move the sensor (or move the retro target, if applicable) up-down-right-left, including angular rotation, to find the center of the movement
zone within which the LED indicator remains ON.
Reducing the Gain setting reduces the size of the movement zone and enables more precise alignment.
5. Repeat the alignment motions after each Gain reduction.
6. When optimum alignment is achieved, mount the sensor, and the emitter or retro target, if applicable, securely in that position.
7. Increase the Gain to maximum.
8. Test the sensor by placing the object to be detected in the sensing position, then removing it.
The Alignment indicator LED turns ON when the sensing beam is established (Light condition), and turns OFF when the beam is broken
(Dark condition). If the Alignment indicator LED stays ON for both sensing conditions, see the following tips for each sensing mode.
2
www.bannerengineering.com - Tel: + 1 888 373 6767
P/N 69942 Rev. F
®
MINI-BEAM AC Voltage Series Sensor
Opposed Mode Alignment
“Flooding” occurs when a portion of the sensing beam passes around
the object to be sensed. “Burn-through” occurs when a portion of the
emitter’s light energy passes through a thin or translucent object, and is
sensed by the receiver.
To correct either problem, do one or more of the following to reduce the
light energy:
•
Reduce the Gain adjustment on the receiver
•
Add an aperture to one or both lenses (MINI-BEAM apertures,
available from Banner, fit neatly inside the lens assembly)
Intentionally misalign the emitter and receiver
Emitter
Object
•
Note:
•
Light condition: sensor output is ON
when there is no object in the beam
Dark condition: sensor output is ON
when there is an object in the beam
•
Receiver
Diffuse Mode Alignment
If the Alignment LED does not go OFF when the object is removed from
the beam, the sensor is probably detecting light reflected from some
background object. To remedy this problem:
•
Reduce the reflectivity of the background by painting the
surface(s) flat-black, scuffing any shiny surface, or drilling a large
hole, directly opposite the diffuse sensor
Move the sensor closer to the object to be detected and reduce
the Gain adjustment. Rule of thumb for diffuse sensing: The
distance to the nearest background object should be at least
three times the sensing distance
Object
•
Note:
•
Light condition: sensor output is ON
when there is no object in the beam
Dark condition: sensor output is ON
when there is an object in the beam
•
Retroreflective Mode Alignment
A highly reflective object may reflect enough light back to a
retroreflective sensor to allow that object to slip through the beam,
without being detected. This problem is called “proxing,” and the
following methods may be used to correct it:
Retro
arget
T
•
Position the sensor and retro target so the beam will not strike a
shiny surface perpendicular to the sensor lens
Reduce the Gain adjustment
•
•
Add a polarizing filter (for model SM2A312LV)
Note:
•
Light condition: sensor output is ON
when there is no object in the beam
Dark condition: sensor output is ON
when there is an object in the beam
•
P/N 69942 Rev. F
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3
®
MINI-BEAM AC Voltage Series Sensor
Convergent Mode Alignment
The sensing energy of a convergent mode sensor is concentrated at the
specified focus point. Convergent mode sensors are less sensitive to
background reflections, compared with diffuse mode sensors. However,
if background reflections are a problem:
Low
Reflectivity
Background
•
Skew the sensor position at a 10° to 25° angle to eliminate direct
reflections from shiny background surfaces
•
Reduce the reflectivity of the background by painting the
surface(s) flat-black, scuffing any shiny surface, or drilling a large
hole, directly opposite the sensor
Object
•
Reduce the Gain adjustment
Note:
•
Light condition: sensor output is ON
when there is no object in the beam
Dark condition: sensor output is ON
when there is an object in the beam
•
Glass Fiber Installation
Retaining Clip
O-ring
1. Install the O-ring (supplied with the fiber) on each fiber end, as shown in the
drawing.
2. While pressing the fiber ends firmly into the ports on the sensor front, slide the U-
shaped retaining clip (supplied with the sensor) into the slot in the sensor's barrel,
until it snaps into place.
Plastic Fiber Installation
1. With supplied fiber cutter, make a clean cut at the control ends of
fibers.
2. Unlock the fiber gripper as shown in the drawing.
3. Apply appropriate fiber adaptors to the fiber, if needed.
4. Gently insert the prepared fiber ends into the ports as far as they will
go.
Gripper
Unlock
Adapters for
0.25- and 0.5-mm fibers
5. Slide the fiber gripper back to lock, as shown in the drawing.
Lock
Trimmed fiber
control ends
Sensor Face
Plastic fiber
receiver port
Plastic fiber
emitter port
4
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P/N 69942 Rev. F
®
MINI-BEAM AC Voltage Series Sensor
Specifications
Supply Voltage and Current
24 to 240 V ac (50/60 Hz), 250 V ac maximum
Operating Conditions
Temperature: –20 °C to +70 °C (–4 °F to +158 °F)
90% at +50 °C maximum relative humidity (non-condensing)
Supply Protection Circuitry
Protected against transient voltages
Application Notes
Overload conditions can destroy ac MINI-BEAM sensors. Directly wiring sensor
without load series, across hot and neutral will damage sensor (except emitter
models).
Low-voltage use requires careful analysis of the load to determine if the sensor’s
leakage current or on-state voltage will interfere with proper operation of the load.
The false-pulse protection feature may cause momentary drop-out of the load when
the sensor is wired in series or parallel with mechanical switch contacts.
Output Configuration
SPST SCR solid-state relay with either normally closed or normally open contact (light/
dark operate selectable); 2-wire hookup
Output Rating
Minimum load current 5 mA; maximum steady-state load capability 300 mA to 50 °C
ambient (122 °F) 100 mA to 70 °C ambient (158 °F)
Inrush capability: 3 amps for 1 second (non repetitive); 10 amps for 1 cycle (non
repetitive)
OFF-state leakage current: less than 1.7 mA rms
ON-state voltage drop: ≤ 5 V at 300 mA load, ≤ 10 V at 15 mA load
Required Overcurrent Protection
WARNING: Electrical connections must be made by
qualified personnel in accordance with local and
national electrical codes and regulations.
Output Protection Circuitry
Protected against false pulse on power-up
Overcurrent protection is required to be provided by end product application per the
supplied table.
Output Response Time
Opposed: 2 millisecond on and 1 millisecond off
Non-Polarized and Polarized Retro, Convergent, and Plastic Fiber Optic: 4
milliseconds on and off
Diffuse and Glass Fiber Optic: 8 milliseconds on and off
OFF response time specification does not include load response of up to 1/2 ac cycle
(8.3 milliseconds). Response time specification of load should be considered when
important.
Overcurrent protection may be provided with external fusing or via Current Limiting,
Class 2 Power Supply.
Supply wiring leads < 24 AWG shall not be spliced.
For additional product support, go to www.bannerengineering.com.
Supply Wiring (AWG)
Required Overcurrent Protection (Amps)
20
22
24
26
28
30
5.0
3.0
2.0
1.0
0.8
0.5
Note: 300 millisecond delay on power-up.
Repeatability
Opposed: 0.3 milliseconds
Non-Polarized and Polarized Retro, Convergent, and Plastic Fiber Optic: 1.3
milliseconds
Diffuse and Glass Fiber Optic: 2.6 milliseconds
Response time and repeatability specifications are independent of signal strength.
Indicators
Red indicator LED on rear of sensor is ON when the load is energized
Certifications
Construction
Reinforced thermoplastic polyester housing, totally encapsulated, o-ring sealing,
acrylic lenses, stainless steel screws
Environmental Rating
Meets NEMA standards 1, 2, 3, 3S, 4, 4X, 6, 12, and 13; IEC IP67
Connections
PVC-jacketed 2-conductor 2 m (6.5 ft) or 9 m (30 ft) cables, or 3-pin Micro-style QD
fitting; QD cables available separately
Performance Curves for SM31Ex Emitter and SM31Rx Receiver Models
Beam Pattern for SM31E/R
Excess Gain Curve for SM31E/R
Beam Pattern for SM31EL/RL
Excess Gain Curve for SM31EL/RL
1000
1000
SM31E & SM31R
SMA31E & SM2A31R
SM31EL & SM31RL
SMA31EL & SM2A31RL
SM31E & SM31R
SMA31E & SM2A31R
SM31EL & SM31RL
SMA31EL & SM2A31RL
300 mm
12.0 in
750 mm
30.0 in
200 mm
100 mm
0
8.0 in
4.0 in
0
500 mm
250 mm
0
20.0 in
10.0 in
0
Opposed Mode
Opposed Mode
Opposed Mode
Opposed Mode
100
100
10
100 mm
200 mm
300 mm
4.0 in
8.0 in
12.0 in
250 mm
500 mm
750 mm
10.0 in
20.0 in
30.0 in
10
1
1
0
0.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
0
6 m
20 ft
12 m
40 ft
18 m
60 ft
24 m
80 ft
30 m
100ft
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
0.1 m
0.33 ft
1.0 m
3.3 ft
10 m
33 ft
100 m
330 ft
Distance
Distance
Distance
Distance
Effective Beam: 3.5 mm
Effective Beam: 13 mm
Performance Curves for the SM312Lx Retroreflective Models
Beam Pattern for SM312LVxx
Excess Gain Curve for SM312LVxx
Beam Pattern for SM312LP
Excess Gain Curve for SM312LP
1000
1000
SM312LV
SM2A312LV
SM312LP
SM2A312LP
SM312LV
SM2A312LV
SM312LP
SM2A312LP
75 mm
3.0 in
60 mm
2.4 in
Retroreflective Mode
Retroreflective Mode
50 mm
25 mm
0
2.0 in
1.0 in
0
40 mm
20 mm
0
1.6 in
0.8 in
0
Retroreflective Mode
100
Retroreflective Mode
100
With BRT-3 Reflector
With BRT-3 Reflector
25 mm
50 mm
75 mm
1.0 in
2.0 in
3.0 in
20 mm
40 mm
60 mm
0.8 in
1.6 in
2.4 in
10
10
With BRT-3 Reflector
With BRT-3 Reflector
1
1
0
1 m
3 ft
2 m
6 ft
3 m
9 ft
4 m
12 ft
5 m
15 ft
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
20 ft
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
.01 m
0.03 ft
0.1 m
0.3 ft
1 m
3 ft
10 m
30 ft
Distance
Distance
Distance
Distance
P/N 69942 Rev. F
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5
®
MINI-BEAM AC Voltage Series Sensor
Beam Pattern for SM312LVxx
Excess Gain Curve for SM312LVxx
Beam Pattern for SM312LP
Excess Gain Curve for SM312LP
1000
SM312LVAG
SM2A312LVAG
SM312LVAG
SM2A312LVAG
75 mm
3.0 in
Retroreflective Mode
50 mm
25 mm
0
2.0 in
1.0 in
0
Retroreflective Mode
100
With BRT-3 Reflector
25 mm
50 mm
75 mm
1.0 in
2.0 in
3.0 in
10
With BRT-3 Reflector
1
0
.6 m
2 ft
1.2 m
4 ft
1.8 m
6 ft
2.4 m
8 ft
3.0 m
10 ft
.01 m
.033 ft
.10 m
.33 ft
1.0 m
3.3 ft
10 m
33 ft
Distance
Distance
Performance Curves for the SM312Dx and SM312W Diffuse Models
Beam Pattern for SM312Dx
Excess Gain Curve for SM312Dx
Beam Pattern for SM312W
Excess Gain Curve for SM312W
1000
1000
SM312D, SM2A312D
SM312W, SM2A312W
Diffuse Mode
SM312W
SM2A312W
SM312D, SM2A312D
Diffuse Mode
22.5 mm
0.9 in
15 mm
0.6 in
Diffuse Mode
Diffuse Mode
15.0 mm
7.5 mm
0
0.6 in
0.3 in
0
10 mm
5 mm
0
0.4 in
0.2 in
0
100
100
10
5 mm
10 mm
15 mm
0.2 in
0.4 in
0.6 in
7.5 mm
15.0 mm
22.5 mm
0.3 in
0.6 in
0.9 in
10
1
0
75 mm 150 mm 225 mm 300 mm 375 mm
3.0 in 6.0 in 9.0 in 12.0 in 15.0 in
1
0
25 mm 50 mm 75 mm 100 mm 125 mm
1.0 in 2.0 in 3.0 in 4.0 in 5.0 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
Distance
Distance
Distance
Distance
1000
SM312DBZ, SM2A312DBZ
Diffuse Mode
SM312DBZ
SM2A312DBZ
15 mm
0.6 in
10 mm
5 mm
0
0.4 in
0.2 in
0
Diffuse Mode
100
10
5 mm
10 mm
15 mm
0.2 in
0.4 in
0.6 in
1
0
75 mm 150 mm 225 mm 300 mm 375 mm
3.0 in 6.0 in 9.0 in 12.0 in 15.0 in
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
1000 mm
40 in
Distance
Distance
Performance Curves for the SM312Cx Convergent Models
Beam Pattern for SM312C
Excess Gain Curve for SM312C
Beam Pattern for SM312CV
Excess Gain Curve for SM312CV
1000
1000
SM312C,
SM2A312C
SM312CV
SM2A312CV
SM312CV, SM2A312CV
Convergent Mode
SM312C, SM2A312C
Convergent Mode
3.0 mm
0.12"
3.8 mm
0.15"
Convergent Mode
Convergent Mode
2.0 mm
1.0 mm
0.08"
0.04"
0
2.5 mm
1.2 mm
0.10"
0.05"
0
100
10
100
10
0
0
1.0 mm
2.0 mm
3.0 mm
0.04"
0.08"
0.12"
1.2 mm
2.5 mm
3.8 mm
0.05"
0.10"
0.15"
1
1
0
7.5 mm 15 mm 22.5 mm 30 mm 37.5 mm
(0.3") (0.6") (0.9") (1.2") (1.5")
0
25 mm 50 mm 75 mm 100 mm 125 mm
(1") (2") (3") (4") (5")
1 mm
(0.04")
10 mm
(0.4")
100 mm
(4")
1000 mm
(40")
1 mm
(0.04")
10 mm
(0.4")
100 mm
(4")
1000 mm
(40")
Distance
Distance
Distance
Distance
1000
1000
SM312CV2
SM2A312CV2
SM312C2, SM2A312C2
Convergent Mode
SM312C2
SM2A312C2
SM312CV2, SM2A312CV2
Convergent Mode
3.8 mm
0.15"
3.0 mm
0.12"
Convergent Mode
2.5 mm
1.2 mm
0.10"
0.05"
0
Convergent Mode
2.0 mm
1.0 mm
0.08"
0.04"
0
100
10
100
10
0
0
1.2 mm
2.5 mm
3.8 mm
0.05"
0.10"
0.15"
1.0 mm
2.0 mm
3.0 mm
0.04"
0.08"
0.12"
1
1
0
25 mm 50 mm 75 mm 100 mm 125 mm
(1") (2") (3") (4") (5")
0
25 mm 50 mm 75 mm 100 mm 125 mm
(1") (2") (3") (4") (5")
1 mm
(0.04")
10 mm
(0.4")
100 mm
(4")
1000 mm
(40")
1 mm
(0.04")
10 mm
(0.4")
100 mm
(4")
1000 mm
(40")
Distance
Distance
Distance
Distance
Performance is based on a 90% reflectance white test card.
6
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P/N 69942 Rev. F
®
MINI-BEAM AC Voltage Series Sensor
Beam Pattern for SM312CVG
Excess Gain Curve for SM312CVG
1000
SM312CVG,
SM2A312CVG
SM312CVG, SM2A312CVG
Convergent Mode
1.20 mm
0.045 in
Convergent Mode
0.80 mm
0.40 mm
0
0.030 in
0.015 in
0
100
10
0.40 mm
0.80 mm
1.20 mm
0.015 in
0.030 in
0.045 in
1
0
7.5 mm 15 mm 22.5 mm 30 mm 37.5 mm
0.3 in 0.6 in 0.9 in 1.2 in 1.5 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
Distance
Distance
Performance Curves for the SM312F Glass Fiber Optic Models
Diffuse Mode
Opposed Mode
Beam Pattern for SM312F Excess Gain Curve for SM312F
Beam Pattern for SM312F
Excess Gain Curve for SM312F
1000
1000
100
10
SM312F, SM2A312F
SM312F, SM2A312F
Opposed Mode
SM312F, SM2A312F
1.9 mm
0.075 in
75 mm
3 in
SM312F, SM2A312F
Diffuse Mode
Diffuse Mode
Glass Fibers
1.3 mm
0.65 mm
0
0.050 in
0.025 in
0
50 mm
25 mm
0
2 in
1 in
0
Opposed Mode
Glass Fibers
100
BT13S
BT23S
IT13S
IT23S
IT23S Fibers
w/L9 lenses
0.65 mm
1.3 mm
1.9 mm
0.025 in
0.050 in
0.075 in
25 mm
50 mm
75 mm
1 in
2 in
3 in
BT23S Fiber
10
IT13S
Fibers
IT23S
Fibers
BT13S Fiber
1
1
0
7.5 mm 15 mm 22.5 mm 30 mm 37.5 mm
0
100 mm 200 mm 300 mm 400 mm 500 mm
4 in 8 in 12 in 16 in 20 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1000 mm
40 in
.01 m
.033 ft
.1 m
.33 ft
1 m
3.3 ft
10 m
33 ft
0.3 in
0.6 in
0.9 in
1.2 in
1.5 in
Distance
Distance
Distance
Distance
Diffuse Mode
Opposed Mode
Beam Pattern for SM312FV
Excess Gain Curve for SM312FV
Beam Pattern for SM312FV
Excess Gain Curve for SM312FV
1000
1000
SM312FV, SM2A312FV
Diffuse Mode
SM312FV, SM2A312FV
Opposed Mode
SM312FV
SM2A312FV
75 mm
3 in
1.95 mm
0.075 in
SM312FV
SM2A312FV
Diffuse Mode
50 mm
25 mm
0
2 in
1 in
0
1.30 mm
0.65 mm
0
0.050 in
0.025 in
0
Opposed Mode
100
100
IT13S
IT23S
BT13S
BT23S
IT23S Fiber
25 mm
50 mm
75 mm
1 in
2 in
3 in
0.65 mm
1.30 mm
1.95 mm
0.025 in
0.050 in
0.075 in
10
BT23S Fiber
10
IT13S Fiber
BT13S Fiber
1
1
0
50 mm 100 mm 150 mm 200 mm 250 mm
2 in 4 in 6 in 8 in 10 in
0
5 mm
0.2 in
10 mm 15 mm 20 mm 25 mm
0.4 in 0.6 in 0.8 in 1.0 in
.1 mm
.004 in
1 mm
.04 in
10 mm
.40 in
100 mm
4 in
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
1000 mm
40 in
Distance
Distance
Distance
Distance
Performance Curves for the SM312FP Plastic Fiber Models
Diffuse Mode
Opposed Mode
Beam Pattern for SM312FP
Excess Gain Curve for SM312FP
Beam Pattern for SM312FP
Excess Gain Curve for SM312FP
1000
1000
SM312FP/SM2A312FP
Diffuse Mode
SM312FP
SM2A312FP
SM312FP
SM2A312FP
SM312FP/SM2A312FP
Opposed Mode
3.8 mm
0.15 in
45 mm
1.8 in
Diffuse Mode
2.5 mm
1.2 mm
0
0.10 in
0.05 in
0
30 mm
15 mm
0
1.2 in
0.6 in
0
Plastic Fibers
100
Opposed Mode
Plastic Fibers
100
PBT46U Fiber
PBT46U
PBT26U
PIT46U
PIT26U
PIT46U Fiber
1.2 mm
2.5 mm
3.8 mm
0.05 in
0.01 in
0.015 in
15 mm
30 mm
45 mm
0.6 in
1.2 in
1.8 in
10
10
PIT26U Fiber
PBT26U Fiber
1
1
0
7.5 mm 15 mm 22.5 mm 30 mm 37.5 mm
0.3 in 0.6 in 0.9 in 1.2 in 1.5 in
0
25 mm 50 mm 75 mm 100 mm 125 mm
1 in 2 in 3 in 4 in 5 in
.1 mm
.004 in
1 mm
.04 in
10 mm
.4 in
100 mm
4 in
1 mm
.04 in
10 mm
.40 in
100 mm
4.0 in
1000 mm
40 in
Distance
Distance
Distance
Distance
P/N 69942 Rev. F
www.bannerengineering.com - Tel: + 1 888 373 6767
7
®
MINI-BEAM AC Voltage Series Sensor
Dimensions
Divergent Diffuse Models
(Suffix DBZ and W)
Plastic Fiber Models
Glass Fiber Models
(Suffix FP)
(Suffix F, FV)
M18 x 1 x 19 mm Thread
(Mounting Nut Supplied)
Fiber
Optic
Fitting
Bezel
18.0 mm
(0.71")
22.3 mm
(0.88")
Fiber Optic Fitting
69.9 mm
(2.75")
31.2 mm (1.23")
54.8 mm
(2.16")
51.8 mm
(2.04")
13.2 mm (0.52")
16.2 mm
(0.64")
Cabled Models
QD Models
(Suffix E, EL, EPD, R, RL, RPD, LV, LVAG, LP, D, C, C2, CV, CV2, and
CVG )
3.2 mm
(0.13")
12.2 mm (0.48")
30.7 mm
(1.21")
12 mm Thread
Quick-disconnect
ø 3 mm Clearance (2)
20.0 mm
(0.79”)
24.1 mm
(0.95")
M18 x 1 x 15 mm Thread
(Mounting Nut Supplied)
2 m (6.5') Cable
Mounting Peg
(ø 6.3 mm x 2.5 mm)
19.1 mm
(0.75")
66.0 mm
(2.60")
27.4 mm (1.08")
Banner Engineering Corp. Limited Warranty
Banner Engineering Corp. warrants its products to be free from defects in material and workmanship for one year following the date of shipment. Banner Engineering Corp. will repair or replace, free of charge,
any product of its manufacture which, at the time it is returned to the factory, is found to have been defective during the warranty period. This warranty does not cover damage or liability for misuse, abuse, or the
improper application or installation of the Banner product.
THIS LIMITED WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES WHETHER EXPRESS OR IMPLIED (INCLUDING, WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY OR
FITNESS FOR A PARTICULAR PURPOSE), AND WHETHER ARISING UNDER COURSE OF PERFORMANCE, COURSE OF DEALING OR TRADE USAGE.
This Warranty is exclusive and limited to repair or, at the discretion of Banner Engineering Corp., replacement. IN NO EVENT SHALL BANNER ENGINEERING CORP. BE LIABLE TO BUYER OR ANY OTHER
PERSON OR ENTITY FOR ANY EXTRA COSTS, EXPENSES, LOSSES, LOSS OF PROFITS, OR ANY INCIDENTAL, CONSEQUENTIAL OR SPECIAL DAMAGES RESULTING FROM ANY PRODUCT DEFECT OR
FROM THE USE OR INABILITY TO USE THE PRODUCT, WHETHER ARISING IN CONTRACT OR WARRANTY, STATUTE, TORT, STRICT LIABILITY, NEGLIGENCE, OR OTHERWISE.
Banner Engineering Corp. reserves the right to change, modify or improve the design of the product without assuming any obligations or liabilities relating to any product previously manufactured by Banner
Engineering Corp. Any misuse, abuse, or improper application or installation of this product or use of the product for personal protection applications when the product is identified as not intended for such
purposes will void the product warranty. Any modifications to this product without prior express approval by Banner Engineering Corp will void the product warranties. All specifications published in this
document are subject to change; Banner reserves the right to modify product specifications or update documentation at any time. Specifications and product information in English supersede that which is
provided in any other language. For the most recent version of any documentation, refer to: www.bannerengineering.com.
For patent information, see www.bannerengineering.com/patents.
©
Banner Engineering Corp. All rights reserved
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