Specifications

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Table Of Contents

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Contents
Preface
- Technical Support
- Modifications to the Product
- Warranty
- Using the documentation
Safety information
- Obligations and Liability
- Explanation of Symbols and Warnings, etc.
- Proper use
- Improper use or use deviating from intended use
- Training and Instruction of Personnel
Storing the CS
- Storage conditions
Decoding the model code label
Checking the scope of delivery
CS1000 Features
CS1000 Restrictions on use
CS1x1x dimensions (without display)
CS1x2x dimensions (with display)
Hydraulic connection types
- Pipe or hose connection (type CS1xxx-x-x-x-x-0/-xxx)
- Flange connection type (Type CS1xxx-x-x-x-x-1/-xxx)
Fastening / mounting the CS1000
Display rotatable/Adjustable As Needed
CS1000 hydraulic installation
- Selecting the measurement point
- Flow rate, differential pressure and viscosity characteristics
- Hydraulic connection of the CS1000
Electrical connection of the CS1000
- Pin assignment
- Connection cable - assignment / color coding
- Connecting cable ends - Examples
Setting the measuring mode
- Mode M1: Continuous measurement
- Mode M2: Continuous measurement and switching
- Mode M3: Filter to cleanliness class and stop
- Mode M4: Filter to continuously monitor cleanliness class
- Mode "SINGLE" measurement
Operating the CS1x2x using the keypad
- Function of the Keys
- Measured variables on the display
- Service variables on the display
- Activate / deactivate keypad lock.
- Display FREEZE
  - Activate display FREEZE
  - Deactivate display FREEZE
- Menus and modes
  - PowerUp Menu
  - Measuring Menu (CS12xx)
- Measuring menu (CS13xx)
Overview of menu structure
- Menu CS 12xx (ISO 4406:1999 and SAE)
- Menu CS 13xx (ISO 4406:1987 and NAS / ISO4406:1999 and SAE 4059 D)
Using switching output
- Mode M1: Continuous measurement
- Mode M2: Continuous measurement and switching
- Mode M3: Filter to cleanliness class and stop
- Mode M4: Filter to continuously monitor cleanliness class
- Mode "SINGLE" measurement
Setting limit values
Reading the analog output
- SAE classes acc. to AS 4059
- ISO Code as per 4406:1999
- ISO code signal acc. to 4406:1987 (CS 13xx only)
- NAS 1638 - National Aerospace Standard (Only CS 13xx)
- Fluid temperature TEMP
Status Messages
- Status LED / Display
- error
- Exceptions Errors
- Analog Output Error Signals
- Analog signal for HDA 5500
  - HDA Status Signal 5 Table
Connecting CSI-D-5 (Condition Sensor Interface)
- CSI-D-5 Connection overview
Connecting the CS1000 to an RS-485 bus
Communicating with the CS1000 via the RS-485 bus
Taking the CS1000 out of operation
Disposing of CS1000
Spare Parts and Accessories
Cleanliness classes - brief overview
- Cleanliness class - ISO 4406:1999
- Table - ISO 4406
- Overview of modifications - ISO4406:1987 <-> ISO4406:1999
- Cleanliness class - SAE AS 4059
- Table - SAE AS 4059
- Definition acc. to SAE
- Cleanliness Class - NAS 1638
Checking/resetting default settings
- PowerUp menu
- Measuring menu
Technical data
Recalibration
Customer Service
- Germany
- USA
- Australia
- Brazil
- China
Model Code
EC declaration of conformity

ContaminationSensor CS 1000 Reading the analog output

HYDAC FILTER SYSTEMS GMBH

en(us)

Page 61/112

BeWa CS1000 3764916 300 en-us 2012-08-29.doc 2012-08-29

HDA.SAE Signal 1/2/3/4

The current or voltage range is dependent on the contamination class according to

SAE=0.0 – 14.0 (resolution 0.1 class).

Current I = SAE class / Error Voltage U =

I< 4,00 mA Cable break U< 2,00 V

I = 4,00 mA SAE 0 U = 2,00 V

I = 4,11 mA SAE 0,1 U = 2,06 V

I = 4,23 mA SAE 0,2 U = 2,11 V

… … …

I = 5,14 mA SAE 1 U = 2,57 V

I = 6,29 mA SAE 2 U = 3,14 V

I = 7,43 mA SAE 3 U = 3,71 V

I = 8,57 mA SAE 4 U = 4,29 V

I = 9,71 mA SAE 5 U = 4,86 V

I = 10,86 mA SAE 6 U = 5,43 V

I = 12,00 mA SAE 7 U = 6,00 V

I = 13,14 mA SAE 8 U = 6,57 V

I = 14,29 mA SAE 9 U = 7,14 V

I = 15,43 mA SAE 10 U = 7,71 V

I = 16,57 mA SAE 11 U = 8,29 V

I = 17,71 mA SAE 12 U = 8,86 V

I = 18,86 mA SAE 13 U = 9,43 V

… … …

I = 19,77 mA SAE 13,8 U = 9,89 V

I = 19,89 mA SAE 13,9 U = 9,94 V

I = 20,00 mA SAE 14,0 U = 10,00 V

If the contamination class is given acc. to SAE, the current I or voltage U can be

calculated:

I = 4 mA + SAE class x (20 mA - 4 mA) / 14

U = 2 V + SAE class x (10 V - 2 V) / 14

If the contamination class is given acc. to SAE, the current I or voltage U can be

calculated:

SAE class = (I - 4 mA) x (14/16 mA)

SAE class = (U - 2 V) x (14/8 V)