Cam Positioners

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ImageProduct DetailPriceAvailabilityECAD ModelMounting TypeFeaturesVoltage - SupplySeriesNumber of OutputsOutput ConfigurationDisplay TypePower (Watts)
H8PS-8AF
CAM POSITIONER 8 NPN OUT
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount
-
24VDC
H8PS
8
NPN Transistor
LCD
4.5W @ 26.4VDC
H8PS-8B
CAM POSITIONER 8 NPN OUT PANEL
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Quantity
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PCB Symbol, Footprint & 3D Model
Panel Mount
-
24VDC
H8PS
8 Cam, 1 RUN, 1 Pulse
NPN Transistor
LCD, 7 Segment
4.5W @ 26.4VDC
H8PS-8BFP
CAM POSITIONER 8 PNP OUT
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount
-
24VDC
H8PS
8 Cam, 1 RUN, 1 Pulse
PNP Transistor
LCD, 7 Segment
4.5W @ 26.4VDC
H8PS-8BP
CAM POSITIONER 8 PNP OUT PANEL
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Quantity
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PCB Symbol, Footprint & 3D Model
Panel Mount
-
24VDC
H8PS
8 Cam, 1 RUN, 1 Pulse
PNP Transistor
LCD, 7 Segment
4.5W @ 26.4VDC
H8PS-16BFP
CAM POSITIONER 16 PNP OUT
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount
Bank Function
24VDC
H8PS
16 Cam, 1 RUN, 1 Pulse
PNP Transistor
LCD, 7 Segment
6.0W @ 26.4VDC
H8PS-32BF
CAM POSITIONER 32 NPN OUT
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount
Bank Function
24VDC
H8PS
32 Cam, 1 RUN, 1 Pulse
NPN Transistor
LCD, 7 Segment
6.0W @ 26.4VDC
H8PS-8BF
CAM POSITIONER 8 NPN OUT
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount
-
24VDC
H8PS
8 Cam, 1 RUN, 1 Pulse
NPN Transistor
LCD, 7 Segment
4.5W @ 26.4VDC
H8PS-16B
CAM POSITIONER 16 NPN OUT PANEL
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Quantity
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PCB Symbol, Footprint & 3D Model
Panel Mount
Bank Function
24VDC
H8PS
16 Cam, 1 RUN, 1 Pulse
NPN Transistor
LCD, 7 Segment
6.0W @ 26.4VDC
H8PS-16BF
CAM POSITIONER 16 NPN OUT
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount
Bank Function
24VDC
H8PS
16 Cam, 1 RUN, 1 Pulse
NPN Transistor
LCD, 7 Segment
6.0W @ 26.4VDC
H8PS-16BP
CAM POSITIONER 16 PNP OUT PANEL
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Quantity
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PCB Symbol, Footprint & 3D Model
Panel Mount
Bank Function
24VDC
H8PS
16 Cam, 1 RUN, 1 Pulse
PNP Transistor
LCD, 7 Segment
6.0W @ 26.4VDC
H8PS-32B
CAM POSITIONER 32 NPN OUT PANEL
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Quantity
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PCB Symbol, Footprint & 3D Model
Panel Mount
Bank Function
24VDC
H8PS
32 Cam, 1 RUN, 1 Pulse
NPN Transistor
LCD, 7 Segment
6.0W @ 26.4VDC
H8PS-32BFP
CAM POSITIONER 32 PNP OUT
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount
Bank Function
24VDC
H8PS
32 Cam, 1 RUN, 1 Pulse
PNP Transistor
LCD, 7 Segment
6.0W @ 26.4VDC
H8PS-32BP
CAM POSITIONER 32 PNP OUT PANEL
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Quantity
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PCB Symbol, Footprint & 3D Model
Panel Mount
Bank Function
24VDC
H8PS
32 Cam, 1 RUN, 1 Pulse
PNP Transistor
LCD, 7 Segment
6.0W @ 26.4VDC
3F88L-160
CAM POSITIONER 16 OUT DIN RAIL
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount, DIN Rail
Bank Function
100 ~ 240VAC
-
16
Transistor
LED, 7 segment
27VA
3F88L-162
CAM POSITIONER 32 OUT DIN RAIL
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount, DIN Rail
Bank Function
100 ~ 240VAC
-
32
Transistor
LED, 7 segment
27VA
3F88L-155
CAM POSITIONER 32 OUT DIN RAIL
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Quantity
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PCB Symbol, Footprint & 3D Model
Chassis Mount, DIN Rail
Bank Function
24VDC
-
32
-
LED, 7 segment
13W

Cam Positioners

Encoder monitoring equipment is a specialized device designed to track and interpret the rotational movement of an encoder. Its primary function is to monitor the rotation of the encoder and generate corresponding output signals based on the detected position and speed. The equipment typically consists of electronic circuits and sensors that are specifically designed to interface with the encoder. These sensors may use various technologies, such as optical or magnetic, to accurately detect the rotational movement of the encoder shaft. By continuously monitoring the changes in position and speed, the equipment can determine the precise location and velocity of the rotating shaft. Once the rotation is detected, the encoder monitoring equipment generates output signals that convey valuable information about the encoder's position and speed. These output signals can take different forms, such as digital pulses, analog voltage, or current signals, depending on the specific design and application requirements. The output signals produced by the encoder monitoring equipment serve as feedback to control systems, allowing them to accurately track and respond to the rotational movement of the encoder. This feedback enables precise positioning, speed control, and synchronization in a wide range of applications, including motor control, robotics, CNC machines, and automation systems. Encoder monitoring equipment often incorporates signal processing capabilities to enhance the accuracy and reliability of the output signals. This includes features like signal conditioning, noise filtering, and amplification, which help to improve the overall performance and eliminate unwanted noise or interference. In summary, encoder monitoring equipment plays a vital role in monitoring the rotation of an encoder and generating output signals that reflect the position and speed of the rotating shaft. Its accurate and reliable measurements enable precise control and synchronization in various applications, contributing to improved performance and efficiency.