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Related Manuals for ABB L150
Summary of Contents for ABB L150
- Page 1 User Guide Inform IM/L150_7 DIN Level Indicator L150...
- Page 2 Electrical Safety This instrument complies with the requirements of BS EN 61010-1:1993 "Safety Requirements for Electrical Equipment for Measurement, Control and Laboratory Use". If the instrument is used in a manner NOT specified by the Company, the protection provided by the instrument may be impaired. Symbols One or more of the following symbols may appear on the instrument labelling: Warning –...
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Page 3: Getting Started
GETTING STARTED This manual is divided into five sections which contain all the information needed to install, configure, commission and operate the DATUM L150. Each section is identified clearly by a symbol as shown below. Displays and Controls • Displays and function keys •... -
Page 4: Table Of Contents
CONTENTS GETTING STARTED ....................1 DISPLAYS AND FUNCTION KEYS ............... 3 Introduction .................... 3 Use of Function Keys ................4 LED Alarms and Indicators ..............5 Error Messages ..................6 OPERATOR MODE ..................7 Introduction .................... 7 Operating Page – Standard Function (Level 1) ........8 Operating Page –... -
Page 5: Displays And Function Keys
1 DISPLAYS AND FUNCTION KEYS 1.1 Introduction – Fig. 1.1 The DATUM L150 front panel display, function keys and LED indicators are shown in Fig. 1.1. tESt Alarm LEDs Display (secret-till-lit) Displays shown during Function Keys the start up procedure... -
Page 6: Use Of Function Keys
…1 DISPLAYS AND FUNCTION KEYS 1.2 Use of Function Keys – Fig. 1.2 A – Raise and Lower Keys 100. 0 100. 1 – 99. 9 LEVEL2 Use to change/set a parameter value… or… LEVEL1 …move between levels B – Parameter Advance Key Frame 1 LEVEL1 LEVELx... -
Page 7: Led Alarms And Indicators
1 DISPLAYS AND FUNCTION KEYS… 1.3 LED Alarms and Indicators – Fig. 1.3 Alarm LEDs DATUM L150 Alarm 1 Alarm 2 Alarm 3 Status All flashing Level indicator is in the configuration mode – see Section 4.2 A1, A2 and A3... -
Page 8: Error Messages
…1 DISPLAYS AND FUNCTION KEYS 1.4 Error Messages Display Error/Action To Clear Display Start-up Screen tESt Displayed at system start-up. Clears automatically (after 3s) to display software version/issue – see Fig. 1.1. Calibration error CAL. E rr Turn mains power off and on again Press the (if the error persists contact the Service Organization). -
Page 9: Operator Mode
2 OPERATOR MODE 2.1 Introduction Operator Mode (Level 1) is the normal day-to-day mode of the DATUM L150. Frames displayed in Level 1 are determined and limited by the indicator functions which are selected during configuration of the instrument – see Section 4. -
Page 10: Operating Page - Standard Function (Level 1)
…2 OPERATOR MODE 2.2 Operating Page – Standard Function (Level 1) Process Variable 2145. 3 Normally displayed engineering 2145. 3 units. To view the input value (in electrical 12. 6 units) press the key. •1 Global Alarm Acknowledge (latch alarms only) UN-ACK UN-ACK –... -
Page 11: Operating Page - Max./Min./Average Functions (Level 1)
2 OPERATOR MODE… 2.3 Operating Page – Max./Min./Average Functions (Level 1) See Section 4.3.3 for details of Max./Min./Average functions. Measured Level 2145. 3 To view the input value (in electrical units) press the key. Global Alarm Acknowledge (latch alarms only) UN-ACK –... - Page 12 …2 OPERATOR MODE …2.3 Operating Page – Max./Min./Average Functions (Level 1) Maximum Value •1 H150. 2 This is the maximum value of the process variable since the maximum was reset. To reset the maximum value, select then press rSt-Y rSt-n key.
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Page 13: Operating Page - Volume Function (Level 1)
2 OPERATOR MODE 2.4 Operating Page – Volume Function (Level 1) Process Variable 2145. 3 Normally displayed in engineering 2145. 3 units. To view the input value (in electrical 12. 6 units) press the key. •1 Global Alarm Acknowledge (latch alarms only) UN-ACK UN-ACK –... -
Page 14: Set Up Mode
3 SET UP MODE 3.1 Introduction To access the Set Up Level (Level 2) the correct code must be entered in the security code frame ( ) in Level 1 – see Sections 2.2 to 2.4 CodE LEVEL2 Level 2 – Set Up Level 1 –... -
Page 15: Set Up Level (Level 2)
3 SET UP MODE… 3.2 Set Up Level (Level 2) Level 2 LEVEL2 Note. To select this frame from anywhere in this level, press the key for a few seconds. •1 Alarm 1 Trip Point A1. h P Alarm type: A1. - Page 16 …3 SET UP MODE …3.2 Setup Level (Level 2) Alarm 3 Trip Point •1 A3. h P Alarm type [In engineering units or % engineering span per 300. 3 hour] Alarm 3 Hysteresis •2 A3 HYS Not applicable to alarm type. A3.
- Page 17 3 SET UP MODE …3.2 Set Up Level (Level 2) Maximum Value •1 H150. 2 This is the maximum value of the level input since the maximum was reset. rSt-n To reset the maximum value, select rSt-Y then press key. rSt-Y –...
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Page 18: Configuration Mode
4 CONFIGURATION MODE 4.1 Introduction – Fig. 4.1 The Configuration Mode comprises two levels (3 and 4) as shown in Fig. 4.1. Level 3 is divided into four frames. For most simple applications it is only necessary to set up the parameters in the first frame. Note. - Page 19 4 CONFIGURATION MODE… …4.1 Introduction – Fig. 4.1 Level 4 LEVEL4 Engineering Level 3 ENG HI LEVEL3 Range High Engineering Hardware ENG LO A 1200 Range Low Configuration b 1200 Retransmission C 1200 rEt HI Range High d 1200 Retransmission rEt LO Alarms and Range Low...
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Page 20: Accessing The Configuration Mode
…4 CONFIGURATION MODE 4.2 Accessing the Configuration Mode To access the Configuration Mode, enter the correct configuration code in Level 1 – see Sections 2.2 to 2.4. The Configuration password is set up in Level 4. 4.3 Basic Hardware and Indicator Functions (Level 3) 4.3.1 Hardware Assignment and Input Type –... - Page 21 4 CONFIGURATION MODE… …4.3.1 Hardware Assignment and Input Type – Fig. 4.2 A – Hardware Configuration 1200 Display Relay 1 Relay 2* Relay 3* Logic Output Analog Output 50Hz 60Hz Source Source Source Source Source Alarm 1 Alarm 2 Alarm 3 IPFAIL Alarm 1 Alarm 2...
- Page 22 …4 CONFIGURATION MODE 4.3.2 Alarms – Figs. 4.3, 4.4, 4.5 and 4.6 All alarms output relays are de-energized in the alarm state (fail safe). 'EFGH' Settings 0000 The first character (E, F, G or H) identifies the parameter to be changed. The current setting is indicated by a 0000 flashing letter.
- Page 23 4 CONFIGURATION MODE… …4.3.2 Alarms – Figs. 4.3, 4.4, 4.5 and 4.6 E – Alarm 1 Type 0000 Display None High Process Low Process High Latch Low Latch Fast Rate Slow Rate F – Alarm 2 Type G – Alarm 3 Type 0000 0000 Display...
- Page 24 …4 CONFIGURATION MODE …4.3.2 Alarms – Figs. 4.3, 4.4, 4.5 and 4.6 Hysteresis Trip Point Hysteresis Process Variable Alarm On High Process Alarm Off Alarm Low Process Alarm Note. – an alarm becomes active when the process variable rises Process Alarms above the high process alarm trip point value or falls below the low process alarm trip point value.
- Page 25 4 CONFIGURATION MODE… …4.3.2 Alarms – Figs. 4.3, 4.4, 4.5 and 4.6 Hours t (191 secs) t (191 secs) Alarm On Alarm Off Note. – an alarm becomes active when the rate of change in Fast/Slow Rate Alarms the process variable is faster or slower than the configured alarm value. Rate of change alarm values are configured as a % of span change per hour.
- Page 26 …4 CONFIGURATION MODE …4.3.2 Alarms – Figs. 4.3, 4.4, 4.5 and 4.6 Alarm Trip Value Alarm Trip + Hysteresis Alarm Alarm Latched Alarm Off Alarm Acknowledgement State High Latch Alarm Alarm Trip + Hysteresis Alarm Trip Value Alarm On Alarm Alarm Latched Alarm...
- Page 27 4 CONFIGURATION MODE… 4.3.3 Operator Functions – Fig. 4.7 'JKLN' Settings 0000 The first character (J, K, L or N) identifies the parameter to be changed (indicated by a flashing letter). Available 0000 parameter options are shown in Fig. 4.7 below. 0000 = Not applicable = Not applicable...
- Page 28 …4 CONFIGURATION MODE 4.3.4 Digital Input and Serial Communications – Fig. 4.8 and 4.9 'PRST' Settings 0000 The first character (P, R, S or T) identifies the parameter to be changed. The current setting is indicated by a 0000 flashing letter. Parameter options are shown in Fig. 4.8. 0000 = Digital input function = Analog input filter...
- Page 29 4 CONFIGURATION MODE… …4.3.4 Digital Input and Serial Communications – Fig. 4.8 and 4.9 P – Digital Input Function R – Analog Input Filter 0000 0000 Display Display None 0 seconds Average, Max/Min Reset 1 second Front Panel Lockout 2 seconds Alarm Acknowledge 5 seconds 10 seconds...
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Page 30: Ranges And Passwords (Level 4)
…4 CONFIGURATION MODE 4.4 Ranges and Passwords (Level 4) Level 4 LEVEL4 Note. To select this frame from anywhere in this level, press the key for a few seconds. Engineering (Display) Range ENG HI High Value (100.0 metres) 100. 0 [–9999 to 99999] Low Value ENG LO... - Page 31 4 CONFIGURATION MODE …4.4 Ranges and Passwords (Level 4) Volume Constant – Fig. 4.10 VOLCON This constant can be used to calculate the volume of liquid in a tank from the measured level 1. 0 [0.0 to 9999.9] Set Up Password S-PASS The password enables access to the set up level (Level [0 to 9999] Default/factory set = 0...
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Page 32: Installation
5 INSTALLATION EC Directive 89/336/EEC In order to meet the requirements of the EC Directive 89/336/EEC for EMC regulations, this product must not be used in a non-industrial environment. End of Life Disposal This instrument does not contain any substance that will cause undue harm to the environment. -
Page 33: Siting The System
• Sensor cable runs over long distances can pick up transients which could impair operation L150. Transient DATUM L150 Indicator protection within the L150 Level System gives protection against induced voltage transients of up to 2kV. • In high humidity... -
Page 34: Siting The Instrument
…5 INSTALLATION 5.2 Siting the Instrument – Figs. 5.2 and 5.3 Close to Sensor Minimum Sensor At Eye Level Avoid Vibration Fig. 5.2 Siting the Instrument – General Requirements... - Page 35 5 INSTALLATION… …5.2 Siting the Instrument – Figs. 5.2 and 5.3 Temperature Limits 55C Max. 0C Min. Humidity Limits 0 to 90% RH Environmental Limits IP65/NEMA3 (front panel) IP20 (rear) Use Screened Cable Warning. Select a location away from strong electrical and magnetic fields.
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Page 36: Mounting The Instrument
…5 INSTALLATION 5.3 Mounting the Instrument – Figs. 5.4 and 5.5 The instrument is designed for panel mounting (see Fig. 5.5). Overall dimensions are shown in Fig. 5.4. Dimensions in mm (inches) 7.1 (0.28) 119 (4.68) 40 (1.57 79 (3.11) 44.6 (1.76 ) 2.7 (0.11) - Page 37 5 INSTALLATION… …5.3 Mounting the Instrument – Figs. 5.4 and 5.5 Cut a suitable hole in the panel (see Fig. 5.4) Insert the instrument into the panel cut-out Fit the retaining clamp over the instrument case Push the retaining clamp firmly against the panel Fig.
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Page 38: Electrical Connections
…5 INSTALLATION 5.4 Electrical Connections – Fig. 5.6 Warning. • The instrument is not fitted with a switch therefore a disconnecting device such as a switch or circuit breaker conforming to local safety standards must be fitted to the final installation. It must be mounted in close proximity to the instrument within easy reach of the operator and must be marked clearly as the disconnection device for the instrument •... - Page 39 5 INSTALLATION… P871/P881 Remove the retaining clamp to access the terminal block Sensor Logic Output (18V at 20mA max.) – 85 to Analog Relay 265V AC AC/DC Output Output 1 Mains Supply Supply – – 10 11 12 11 12 13 14 15 16 17 18 19 20 21 22 23 24 –...
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Page 40: Relays, Arc Suppression, Outputs And Input
…5 INSTALLATION 5.5 Relays, Arc Suppression, Outputs and Input 5.5.1 Relay Contact Ratings 115/230V AC at 5A (non-inductive) 250V DC 25W max. 5.5.2 Arc Suppression Arc suppression components are fitted to relays 2 and 3 only. If relay 1 is required to switch inductive loads, fit the arc suppression components supplied. -
Page 41: Specification
SPECIFICATION Operation Display High-intensity 7-segment, 1 x 5-digit LED display Three alarm LED indicators Display range –9999 to +99999 Display resolution ±1 digit Display height 14mm (0.56 in.) Configuration User-defined via front panel or PC configurator Standard Functions Alarms Number Three user-defined Types High/Low process... - Page 42 …SPECIFICATION Analog Input Input type 1 to 10 mA, 4 to 20 mA or customize via PC Configurator Input sampling rate 250ms Accuracy Indicator 0.2% of reading Output <0.2% of span Sensor power supply 24V, 30mA max. (powers one 2-wire transmitter) ±...
- Page 43 SPECIFICATION… Relay output SPDT 5A at 115/230V AC Assignable to alarms Digital input Type Volt-free Minimum pulse 250ms Modbus serial communications Connections RS422/RS485, 2- or 4-wire Speed 2.4k or 9.6k baud rate Protocol Modbus RTU slave Electrical Voltage (supply) 85 to 265V AC 50/60Hz 24V DC optional Power consumption <...
- Page 44 5 to 95% RH non-condensing Temperature stability <0.02% of reading or 2µV/°C (1µV/°F) Front face IP65 (NEMA 3), case rear IP20 Emissions Meets requirements of EN50081-2 Immunity Meets requirements of EN50082-2 Design and manufacturing standards CE mark Electrical safety IEC 348 SS/L150 Issue 4...
- Page 45 Service Organization. Contact one of the following offices for details of your nearest Service and Repair Centre. LEVEL2 United Kingdom ABB Limited A1xx Tel: +44 (0)1480 475 321 LEVEL1 Fax: +44 (0)1480 217 948 A1HYSt United States of America A2xx ABB Inc.
- Page 46 VOLCON J 0000 S-PASS C-PASS P 0000 ABB has Sales & Customer Support The Company’s policy is one of continuous product Addr. expertise in over 100 countries worldwide improvement and the right is reserved to modify the information contained herein without notice.