Series 14 incremental standard hollow shaft encoder - WiFi
1   4 X X - X X W S - X X X X
 

Shaft Size

Incremental Output

 Resolution - ppr
12 = 12 mm 13 = Standard Quadrature
14 = 14 mm 33 = DeviceNet
20 = 20 mm 08 = XML RS232
25 = 25 mm 57 = ModBUS
30 = 30 mm
40 = 40 mm

 

B1 = 1"

  

 

Price: (for encoder + transmitter + battery + receiver)

From 615.00£ (no cable cost)

Technical Data
Encoder:  
Operating Temp: -20C to +60C
Housing Material: Die Cast Aluminum
Shaft Material: Aluminum
IP rating: IP64
Shaft load: Supports 'system' weight
Humidity: 98% permissible
Shock: 10mg (6msec)
Vibration: 5g (500Hz)
Shaft Speed: 3000 rpm
Transmitter:  
Operating Temp: -20C to +60C
Housing Material: Clear Makrolon (plastic)
IP rating: IP66
Humidity: 98% permissible
WiFi Frequency: 2.4 GHz
Data Rate: 250 kbs
Battery Pack:  
Operating Temp: -20C to +60C
Housing Material: To match encoder
IP rating: IP66
Humidity: 98% permissible
Type: Lithium Thyonide Chloride
Life Time: About 10 years
   up to 100ppr 1 billion data transmissions
   above 100 ppr 300 million data transmissions
Receiver Module:
- Click above for a full description of the outputs that can be generated from the receiver module.
- The default output protocol for incremental is the standard quadrature output.. This means the encoder can be replaced 1:1 with one in an existing system.  The output is 5V pulses.
Function:
A low power incremental encoder output is fed into a 16 bit up-down counter.  Every time the encoder shaft moves, a pulse edge triggers a data transmission to the distant module.  Data is read 100 times per second.  If the incremental encoder spins to fast, the data transmission jumps from one counter content to another.  Every data transmission contains the full 16 bit counter value.
Identity:
Each encoder has a unique identity number in case multiple sensors are purchased.  The ID numbers can be customer specified.  As default, they be the serial number of the device, this way, there will never be conflicting identities on a system.
Certifications
IP 64
Not intrinsically safe 
Mounting Instructions

1. Just before installing encoder onto shaft, screw the battery pack in firmly to the transmitter housing (the clear part)

2. Mount the encoder mechanically as you would any other encoder.

3. On the safe side, plug in the receiver module into the PLC or computer and start reading the data in whatever format you have.

4. The battery can be 'hot-swapped' in the field for a new battery if it does run out.

5. If you will NOT immediately use the encoder, do NOT connect the battery.  Only connect the battery right before using.
Dimensions

Hohner Automation Ltd. Tel: +44 (0) 1978 363-888
Whitegate Industrial Estate Fax: +44 (0) 1978 364-586
Wrexham LL13 8UG E-mail: uksales@hohner.com
United Kingdom Web: www.hohneronline.co.uk