IFM RC6009 - Receiver

RC6009 - Receiver IFM - Free user manual and instructions

Find the device manual for free RC6009 IFM in PDF.

📄 11 pages English EN Download 💬 AI Question 10 questions ⚙️ Specs
Notice IFM RC6009 - page 5
5 / 11
View the manual : Français FR Deutsch DE English EN
Pick your language and provide your email: we'll send you a specifically translated version.
Product type Incremental rotary encoder
Brand IFM
Model RC6009
Power supply 5 V TTL or 10…30 V HTL version
Output signals Outputs A, B, zero index (0) and their complements, fault
Electrical phase shift 90° between A and B
Short-circuit protection Yes (on 0V for 5 V TTL; on 0V and L+ for HTL, max 1 min)
Maximum cable length 100 m (5 V TTL) / 300 m (10…30 V HTL)
Connection By cable or M12 connector, 5-pole
Mounting On mounting flange, shaft via flexible coupling
Recommended mounting flange E 60033
Main function Conversion of rotation into pulses for linear, angular and position measurements
Maintenance Avoid shocks to the shaft; do not file the shaft
Electrical safety Disconnect power before connecting/disconnecting
Repairability Spare parts and accessories available at ifm.com

Frequently Asked Questions - RC6009 IFM

What type of product is the RC6009?
The RC6009 is an incremental rotary encoder used to measure linear, angular and position displacements.
What are the available supply voltages?
Two versions exist: 5 V TTL and 10…30 V HTL. Check the housing label for the exact version.
How to connect the cable wires?
Refer to the wiring diagram on the housing cover. Unused wires must be insulated. The shield ground is connected to the housing.
What output signals does the encoder provide?
It delivers digital pulses on outputs A, B (90° phase shifted), zero index and their complements, as well as a fault signal.
What is the maximum cable length?
Up to 100 m for 5 V TTL version and 300 m for 10…30 V HTL version, with suitable cables installed more than 20 cm from interference sources.
How to mount the encoder correctly?
Mount it on a mounting flange and use a bellows or elastic washer flexible coupling to compensate for shaft misalignment.
Is the encoder protected against short circuits?
Yes. 5 V TTL version: outputs protected on 0V. HTL version: protected on 0V and L+ (max. 1 minute).
What to do if I do not use the L+ (sensor) and 0V (sensor) wires?
These wires must be connected to the supply voltage or insulated. They serve as a test if modules regulate the voltage.
Where to find accessories and the datasheet?
On the IFM website: www.ifm.com. The recommended mounting flange is model E 60033.
How to avoid damaging the encoder during mounting?
Avoid impacts on the shaft and do not use abrasive tools. Mount the flange on a spring base to reduce stress.

User questions about RC6009 IFM

0 question about this device. Answer the ones you know or ask your own.

Ask a new question about this device

The email remains private: it is only used to notify you if someone responds to your question.

No questions yet. Be the first to ask one.

Download the instructions for your Receiver in PDF format for free! Find your manual RC6009 - IFM and take your electronic device back in hand. On this page are published all the documents necessary for the use of your device. RC6009 by IFM.

USER MANUAL RC6009 IFM

Function and features

The encoder transforms rotational movement into pulse sequences. These allow the measurement of linear distances and angular movement as well as the determination of positions.

Electrical connection

IFM RC6009 - Electrical connection - 1

Disconnect power from the installation before connecting or disconnecting cables or connectors!

Unused wires must be insulated to avoid short circuits and cross faults.

Short-circuit protection

5 V TTL version: outputs short-circuit protected against 0 V 10...30 V HTL version: outputs short-circuit protected against 0 V and L+ for maximum 1 minute

Standard wiring:

Wiring is also indicated on the housing cap.

Flange plug if m1001.xx 13-wire cable 5-pole
L+ 2 12 brown/green
L+ sensor - 2 blue
0V 1 10 white/green
0V sensor -11white
A35brown
A neg.-6green
B48grey
B neg.-1 grey
0 index53red
0 index neg.-4black
fault neg.-7lilac
free-9-
free--yellow
screenhousinghousinghousing

If there is a deviation, the encoder must be connected as indicated on the label on the housing cap.

The wires L + (sensor) and 0V (sensor) are internally connected to the supply voltage. When using external electronics which regulate the supply voltage these wires can be used as test wires. If unused, these wires must be connected to the supply voltage or insulated.

Depending on the version, the electrical connection is made via the cable or via cables to be obtained separately.

When using suitable cables the maximum cable length is 100m for the 5 V TTL version and 300m for the 10...30 V HTL version.

The cables must be laid separately from interfering sources, the minimum distance is 20~cm .

The braided screen in the cable is connected to the encoder housing.

Output signals

The encoder provides digital pulse sequences at the output stages. The outputs A and B are electrically offset by 90^ . Thus the direction of rotation can be evaluated in the external electronics.

IFM RC6009 - Output signals - 1

The combined zero index is provided once in a mechanical revolution of the shaft. In case of power failure it can be used as a reference point within a revolution.

The inverted output signals are used for external electronics with differential voltage input to filter interference.

Installation

IFM RC6009 - Installation - 1

Do not hit the shaft, do not use a file or similar tool on the shaft: This could destroy the unit!

The encoder can be screwed to the angle bracket. The shaft should be connected using a flexible bellows or spring disc coupling to compensate for shaft displacement and to protect the encoder against damage.

Linear movements can be transformed into a rotational movement using a measuring wheel or rack and pinion. For mounting the maximum permissible shaft loads of the encoder must be taken into account.

Mounting the angle bracket on a resilient base protects the encoder against too high a stress due to roughness of the material.

IFM RC6009 - Installation - 2

The data sheet, further documents and suitable accessories are available on our website at www.ifm.com.

Holder of Certificate: ifm electronic gmbh

Friedrichstr. 1

45128 Essen

GERMANY

Production

20196

Facility(ies):

Certification Mark:

IFM RC6009 - Certification Mark: - 1

Product:

Electronic measuring equipment (encoders)

Model(s):

RAX, ROx, RPx, RBx, RCx, RUX, RVx, RSx, RMs, RNx "x" can be any character (up to 15 digits) and defines configurations, interface, resolution and length.

Parameters:

Rated Voltage: 5-30 Vdc

Rated Current: max. 370 mA

Remark:

When installing, requirements of mentioned Test

Standards and Installation Guide has to be fulfilled.

Supply shall fulfil requirements of limited energy

circuit or Class 2 power.

Tested

UL 61010-1:2004

according to:

CAN/CSA-C22.2 No.61010-1:2004

The product was voluntarily tested according to the relevant safety requirements and mentioned properties. It can be marked with the certification mark shown above. The certification mark must not be altered in any way. This product certification system operated by TÜV SÜD America Inc. most closely resembles that described by ISO/IEC Guide 67, Conformity assessment - Fundamentals of product certification, System 3. See also notes overleaf.

Test report no.:

028-71370093-000

Date, 2010-08-18

Page 1 of 1

IFM RC6009 - according to: - 1

IFM RC6009 - according to: - 2

TUV SUD AMERICA INC. 10 Centennial Drive Peabody MA 01960 USA www.TUVamerica.com

IFM RC6009 - according to: - 3

Manual assistant
Powered by Anthropic
Waiting for your message
Product information

Brand : IFM

Model : RC6009

Category : Receiver