FL1B-M08C2R2

FL1E LONWORKS® AS-Interface http://smart.idec.com (100617) FL1E IDEC SmartRelay FL1E Small LCD panel supports 10 languages Scrollable messages and characters of various languages provide more flexibility. • English, Japanese, Chinese (GB-2312), German, French, Italian, Turkish, Dutch, and Russian characters available • Backlight time can be set. • Adjustable contrast • 50 screens with a maximum of 48 characters per screen can be displayed. Digital/Analog Input Eight digital inputs: 4 high-speed digital (I3 to I6) with up to 5 kHz response frequency and 4 digital/analog compatible (I1, I2, I7, I8) (Applicable models: FL1E-H12RCE/FL1E-B12RCE/FL1E-H12SND) Control Buttons Easy programming using 6 buttons. No tools necessary for changing parameters even while mounted on a panel. Multi-function Interfaces A memory cartridge stores a user program and the communication cable for WindLGC can be installed/removed easily, allowing for an easy system changeover. New cartridges to suit a range of different applications NPN/PNP Sensor Input Output from NPN/PNP sensors can be inputted without external resistance. This enables a wider selection of input devices, saving wiring time. Memory cartridge (FL1E-PM4) Digital Output Battery cartridge (FL1E-PB1) Stores a user program. Equipped with a protection function to prevent unauthorized program changes or copying. (Applicable models: FL1E-H12RCA/FL1E-B12RCA/FL1B-M08D2R2) Use outputs for controlling lights, small motors, and solenoid valves up to 10A. Extends the data backup life up to 2 years. Memory/battery cartridge (FL1E-PG1) Has both memory and battery functions. Expandability Can be combined with FL1B expansion I/O modules and communication modules, and an FL1D analog output module for system configuration. Program Size WindLGC Ver. 6.* Programming software for the FL1E is upgraded to WindLGC Ver. 6.*. WindLGC is upgraded not only for easier programming, but also for more convenience in debugging. Download Demo Version Large (3,800 bytes maximum) program size allows for easy programming using function blocks, without a concern for program size (within the programmable bytes). Program Size No. of Programmable Blocks Message Display Bar Graph Internal Marker REM Relays/ Timers 3,800 bytes 200 50 32 27 250 Unlimited New Funcion Blocks (3 types) Analog math is enhanced by combining function blocks that process analog signals, providing a variety of applications. http://www.idec.com/download Upward Compatible User Program User programs for the preceding FL1A, FL1B, FL1C, and FL1D IDEC SmartRelays can be imported to the FL1E using WindLGC Ver. 6.* and the memory cartridge. See page 4. 2 (100617) Concept Replaces relays, timers, and counters The FL1E IDEC SmartRelay contains various functions such as timers, counters, and a calendar. No complicated wiring is required. Just use the buttons and the LCD panel to write programs. System changeover that requires parameter changes can be completed easily. Smaller system than using a PLC Sensor Reduces your workload Display PLC Cou nter Relay Terminal Ana Motor Time r log Rela y Solenoid Valve Change your complicated system of multiple relays, timers, and counters to a single IDEC SmartRelay. The IDEC SmartRelay replaces many functions of peripheral equipment of the programmable logic controller. Features 10A max. output contacts and up to 48 display characters. 39 different types of function blocks make it possible to perform various control operations easily. Easy-to-see display with more variety of characters and graphs. Advanced control is made possible with PWM and analog math. Easy-to-use text display is added! FL1E Text Display FL1E Text Display The messages on the LCD panel of the base module can be seen clearly on the new panel-mount text display. Wide-size LCD screen (61.0 × 33.0 mm) and large control buttons provide excellent visibility and ease of operation. IP65 protection. Wide-size text display improves operability. Excellent visibility reduces operation errors. Note: Programs cannot be edited on the text display. (100617) Flexible operation, such as on-site parameter changes and monitoring is made possible. Four membrane pushbuttons are provided. Can be also used for turning on backlight and starting/stopping programs. Buttons of the same style as the base module are supplied. Parameter changes and monitoring screen scroll can be accomplished. Programs cannot be edited on the text display. The FL1E text display requires the FL1E base module as a controller. 3 solutions for engineers! A wide variety of applications using analog values. New Function Blocks & Application Examples Pulse width modulator (PWM) Analog input value (Ax) is modulated to pulsed digital output signals. Heater is controlled to maintain the temperature inside a green house. When the temperature decreases to 20°C and below, a digital output is turned on to start the heater. Heater Ventilation Fans Temperature Sensors FL1E Text Display (FL1E base module inside the control panel) En Ax Par Control Panel Q Pulse Width Modulator (PWM) Four analog parameters are used for arithmetic operation to Analog math and analog error detection obtain the analog solution. The average value of power used in show rooms A, B, and C is obtained and monitored. If the value exceeds the target value, a warning sign is illuminated to encourage energy-saving. En Par AQ Analog Math En R Par 4 Q En R Par Q Analog Math Error Detection The results of four arithmetic operations are monitored, and digital outputs are turned on when the value exceeds or falls below the preset range. (100617) The standard solution for engineers! Replaces timers and counters. Control of equipment and system incorporating various controls is made possible. Timing control for a water sprinkler and fountain system The IDEC SmartRelay can replace weekly timers for controlling the timing of water sprinklers and fountains. The duration of the water flow can be changed depending on the hour, and the clock can be rewritten by using the buttons on the FL1E. Reducing mounting space and cost. __ Hr __ Min FL1E (outputs expandable) Water Sprinkler Fountain Data acquisition system of machine operating hours With an operating hours counter function, the current counter value can be read on the LCD panel on the IDEC SmartRelay. One IDEC SmartRelay can count operating hours of multiple machines, making it possible to obtain information such as operating conditions and replacement period of consumable components. IDEC SmartRelay Three systems Other Application Examples Cargo lifting equipment Movement control of patient transfer systems Automatic ship mast lifting machines Air shower operating machines Water sprinkler control Drainage pump control Conveyor belts Ice-cream mixer control Pipe driver control for PVC greenhouse Forward/reverse motor rotation monitoring buzzer control, tower light control Semi-automatic wire cutting machines Monitoring of machine operating time Analog sensor disconnection detection device, analog value monitoring device Control panel temperature, humidity monitoring device Car park warning light control IC storage box heater control Operating time adjustment device for game machines in amusement arcades Fluid level control device ...and more! The IDEC SmartRelay is successfully used not only in areas of factory automation but also in various control equipment. (100617) 5 Wide variety of modules for various combinations provides for flexibility and versatility. Base Module & Expansion Modules FL1E Base Modules FL1E-H12SND FL1E-H12RCE FL1E-H12RCA FL1E-H12RCC Power Voltage 24V DC 12/24V DC 24V AC/DC 100 to 240V AC/DC Input DC input: 8 points (PNP) (Analog 4 points) DC input: 8 points (PNP) (Analog 4 points) AC/DC input: 8 points (PNP/NPN input) AC/DC input: 8 points (PNP input) Relay output: 4 points Output Transistor output: 4 points Relay output: 4 points Relay output: 4 points Programming Function With With With With Clock Function With (Note) With With With Note: FL1E-H12SND of Ver. 4 and before does not have clock function. FL1E-B12RCE FL1E-B12RCA FL1E-B12RCC Power Voltage 12/24V DC 24V AC/DC 100 to 240V AC/DC Input DC input: 8 points (PNP) (Analog 4 points) AC/DC input: 8 points (PNP/NPN input) AC/DC input: 8 points (PNP input) Output Relay output: 4 points Relay output: 4 points Relay output: 4 points Programming Function Without Without Without Clock Function With With With Initialization Time: After power-up, the FL1E takes a maximum of 10 seconds (when using a memory cartridge or memory/battery cartridge) or 9 seconds (without using any cartridges or when using a battery cartridge) for initialization. When initialization is complete, the FL1E is automatically set to RUN mode. Expansion I/O Modules Combination I/O Modules FL1B-M08B1S2 FL1B-M08B2R2 FL1B-M08D2R2 FL1B-M08C2R2 Power Voltage 24V DC 12/24V DC 24V AC/DC 100 to 240V AC/DC Input DC input: 4 points (PNP input) DC input: 4 points (PNP input) AC/DC input: 4 points (PNP/NPN input) AC/DC input: 4 points (PNP input) Output Transistor output: 4 points Relay output: 4 points Relay output: 4 points Relay output: 4 points Max. Expansion Modules 4 4 4 4 FL1B-J2B2 Analog Modules Analog Input Module Max. Expansion Modules FL1D-K2BM2 Analog Output Module Power Voltage 12/24V DC 24V DC Analog I/O Points Analog input: 2 points Analog output: 2 points Analog I/O Range Voltage input: 0-10V DC Current input: 0-20 mA Voltage output: 0-10V DC Current output: 0-20, 4-20 mA Resolution 10 bits 10 bits Max. Expansion Modules 4 1 Use of a base module and expansion I/O modules of the same power voltage rating is recommended, with power supplied to all modules using one power supply. Module Combination and Allocation Numbers 1. Maximum configuration when using a base module without analog inputs FL1E-H12RCA FL1B-M08B2R2 FL1B-J2B2 FL1D-K2BM2 Digial Input: I 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Analog Input: AI 3 4 5 6 7 8 Analog Output: AQ 1 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Digital Output: Q Note 1: Digital inputs: 24, analog inputs: 6, digital outputs, 16, analog outputs: 2 Note 2: AI3 to AI8 are allocated to the analog input module. 2. Maximum configuration when using two analog inputs on the base module FL1E-H12RCE FL1B-M08B2R2 FL1B-J2B2 FL1D-K2BM2 Digial Input: I 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Analog Input: AI 1 2 3 4 5 6 7 8 Analog Output: AQ 1 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Digital Output: Q Note 1: Digital inputs: 22, analog inputs: 8, digital outputs: 16, analog outputs: 2 Note 2: Analog inputs AI3 and AI4 are allocated to the analog input module. Note 3: When using two analog inputs on the FL1E base module, allocation of I/O numbers has a compatibility with the FL1D series. 3. Maximum configuration when using four analog inputs on the base module FL1E-H12RCE FL1B-M08B2R2 FL1B-J2B2 FL1D-K2BM2 Digial Input: I 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Analog Input: AI 3 4 1 2 5 6 7 8 Analog Output: AQ 1 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Digital Output: Q Maximum number of connectable modules per base module: · 4 combination I/O modules · 4 analog input modules · 1 analog output module Maximum number of I/O points* Digital input: 24 Digital output: 16 Analog input:   8 Analog output:   2 * The maximum number includes the I/O points of the base module and the expansion I/O modules. Base module Combination I/O module Analog input module Analog output module For users using analog inputs: By setting the embedded analog input number using the WindLGC Ver. 6.*, I/O numbers can be allocated to the base module and expansion analog module. Note 1: Digital inputs: 20, analog inputs: 8, digital outputs: 16, analog outputs: 2 Note 2: Using WindLGC Ver. 6.*, allocate AI3 and AI4 to the base module. AI5 to AI8 are allocated to the analog input module. 6 (100617) AS-Interface Communication Module FL1B-CAS2 System Configuration Example The AS-Interface communication module provides an optimum solution for savings in cables, installation space, and wiring cost and the possibility for decentralized control. Open Network (CC-Link, DeviceNet) • Virtual I/O points: 4 input points, 4 output points. • FL1B-CAS2 is compatible with ASInterface Ver. 2.0. Branch Connector PS2R AS-Interface Power Supply SX5A Safety Monitor SX5A IP20 Manifold Solenoid Communication Terminal Value Sensor (AS-Interface Light Tower Direct Connection Type) AS-Interface Communication Module Combination and I/O Allocation Examples SX5A IP67 Communication Terminal Sensor Using expansion I/O modules FL1E-H12RCE FL1B-M08B2R2 Light Curtain Emergency Stop Switch HW/L6 Series SwitchNet™ Control Units (AS-Interface Direct Connection Type) • When using 4 analog inputs on the base module Digial Input: I Analog Input: AI Digital Output: Q SX5A AS-Interface Gateway FC4A AS-Interface Master Module AS-Interface Safety at work FL1B-CAS2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 3 4 1 2 5 6 1 2 3 4 5 6 7 8 9 10 11 12 Base module Combination I/O module AS-Interface communication module Analog input module FL1B-J2B2 For SwitchNet® and IDEC AS-Interface devices, see catalogs No. EP1143, EP1043 and EP1025. Note 1: I/O numbers are automatically allocated starting with the base module. Note 2: When the base module with analog inputs is used, the subsequent numbers will be allocated to the analog input modules. LonWorks® Communication Module FL1B-CL1C12 System Configuration Example Combination of easy-to-program IDEC SmartRelay and LonWorks® communication module achieves remote control and monitoring on a LonWorks® network. • Max. virtual input points: 16 points • Max. virtual output points: 12 points • Max. virtual analog input points: 8 points Control Server/ Monitor and Operation Terminal Ethernet PLC LONWORKS® Gateway Air Conditioner Remote-control Relay (Number of I/O points depends on the combination of modules.) Control Valve LONWORKS® Communication Module An external interface file (XIF extension) unique to each LonWorks® communication module is needed to communicate through the LonWorks® network. The XIF file can be downloaded from the following website. Thermometer Non-LONWORKS® Device http://www.idec.com/download Voltage (analog value) Current (analog value) Power Alarm Failure Control Controller Illumination Shade LONWORKS® Communication Module Illumination Meter SX5L Communication Terminal (I/O unit)* Intrusion Detector SX5L Communication Terminal (I/O unit)* * Terminal block type communication terminal: I/O unit installed with standard network variables (SNVT) LONWORKS® Network Module Combination and Allocation Numbers 1. Maximum number of I/O points when using LonWorks® communication module FL1D-H12RCC Digial Input: I Analog Input: AI Digital Output: Q FL1B-CL1C12 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 2. Using expansion I/O module (using 4 analog inputs on the base module) FL1D-H12RCE FL1B-M08B2R2 Base module LonWorks® communication module Combination I/O module Analog input module Analog output module FL1B-CL1C12 Digial Input: I 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Analog Input: AI 3 4 1 2 5 6 7 8 Digital Output: AQ 1 2 Digital Output: Q 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 FL1B-J2B2 FL1D-K2B2 Note 1: One LonWorks® communication module can be used with a base module and must be mounted at the far right end of the row. Note 2: I/O numbers are automatically allocated starting with the base module. Note 3: When the base module with analog inputs is used, the subsequent numbers will be allocated to the analog input modules and LonWorks® communication module. (100617) For details about SX5L LonWorks® communication terminals, see catalog No. EP995. LonMark®, LonWorks®, LON®, Neuron®, 3120®, 3150®, and Echelon® are registered trademarks of Echelon, USA. 7 Programming Software WindLGC reduces development and debugging time of simple and complex programming WindLGC Ver. 6.* Programming Software for IDEC SmartRelays WindLGC features user-friendly debugging functions such as simulation and online test functions. Not only writing programs but also configuring, confirming, changing the messages on the base module and text display can be completed. Programming Programs can be configured using the drag-anddrop method quickly and easily. Function Block Programming Function block parameters are entered and modified in the function block dialog boxes. Ladder Programming In addition to function block, WindLGC can program using ladder for the IDEC SmartRelay. When downloading the user program to the base module, ladder diagrams are converted into function block diagrams. For details, see the user’s manual and FAQ available at the following website. http://www.idec.com/support WindLGC 6.* System Requirements Update Center CPU Pentium III 500MHz OS Windows® 98 SE/Me/ NT4.0/2000/XP/Vista (except for 64 bit) Hard disk space 90 MB RAM 256 MB Display 800×600 pixels, 256 colors (1024 × 768 recommended) Free upgrade from WindLGC Ver. 3 can be downloaded from the update center or IDEC website through the Internet. http://www.idec.com/download To upgrade WindLGC Ver. 5.0.20 or Ver. 5.0.22 to Ver. 6.*, upgrade the software to Ver. 5.0.23 beforehand. General Function Blocks AND Series connection of normally open contacts AND AND (Edge) I1 I2 I3 I4 Q Cycle 1 2 3 4 5 6 7 8 9 10 1 2 3 4 NAND & Q 1 2 & 3 4 8 Parallel connection of normally closed contacts Cycle 1 2 3 4 5 6 7 8 9 Q OR Parallel connection of normally open contacts 1 2 3 4 10 Edge detection with edge evaluation (pos. edge) Edge detection with edge evaluation (pos. edge) NAND NAND (Edge) I1 I2 I3 I4 Q & Q NOR Series connection of normally closed contacts 1 2 & 3 4 XOR Q NOT 1 2 3 4 1 2 3 4 Double changeover contact Connection of closed contact 1 2 1 =1 Q 1 Q 1 Q 1 Q (100617) WindLGC Ver. 6.*: New Functions d ate Upd d ate Improvement of function blocks 1 Upd Improvement of function blocks 2 When using simulation or online test on WindLGC, changes of analog output values (AQ), current values (PV), and set-values (SP) can be shown in a trend graph for easy monitoring of the changes. Sampling period can be also chosen in one-second increments, so that the chronological changes can be confirmed accurately and more easily. The addition of function blocks that can be set as parameters makes it possible to achieve optimization of the entire program and flexible programming through the coordination of function blocks necessary for programming. No. of function blocks which can set as parameters 22 No. of function blocks which can be used as parameter preset values 8 · SP (Set Point) obtained by referring to the analog value of the linked function block can also be shown in the trend graph (WindLGC V.6.1.16 and up). Special Function Blocks On-delay Off-delay On-/Offdelay Retentive on-delay Latching Relay Current impulse relay Interval timedelay relay/ Pulse output Q T Trg Q TH Trg R Q T Twelvemonth time switch Up/down counter (100617) Trg R Par Q Trg Par Q Trg R Par T S R RS Q S R Par RS Trg Q Trg Par T Trg R TL No1 Sa Su ON 12:00 OFF 20:00 Su ON 8:00 OFF 22:00 No2 Q TH Sa 12 TL MM.DDt Q 8 0 22 20 No1 No2 No3 Fed. Mar. Apr. 25 R Cnt Dir 3 Par 21 Par Operating hours counter 25 No R Cnt Dir Par OFF=On+ Asynchronous pulse generator Q En Aen+ Aen AenX A Q R En Ral Q MN=MI R En Ral Par MN=0 En Inv Q TH En Inv Par TL Trg Q Fre G-T Q Q Q Q S1 S2 S3 S4 S5 S6 S7 S8 0 0 0 0 1 1 0 0 1 0 0 0 0 1 1 0 0 1 0 0 0 0 1 1 fa=5Hz fa=3Hz 1s 1s Fre Par Ax Par Q Ay PI control 1 0 1 0 0 0 0 1 1 1 0 1 0 0 0 0 Analog ramp control 1000 0 Ax Ay Par 0 1000 200 Ax-Ay Q 0 En Sel St MaxL Level 2 Level 1 Ra StSp+B Q Pulse width modulator (PWM) 0 1 1 0 1 0 0 0 1 1 0 1 0 0 0 1 Q 2 3 AQ te Ra te Ra te Ra te 100 ms 100 ms 100 ms En S1 S2 V1 V2 V3 0 V4 AQ En Max =1000 Ax = 500 Min = 0 Q AQ Q S4=Q (Example) AQ B Q En Par In Trg Dir Par 500 ms Q Analog multiplexer 1000 1 Max SP PV Min Mq Q Q Shift Down A/M R /+ Dir Q when Ax – Ay > 200, On and OFF threashold values = 200 MM DD Q Shift register En P Par Ax Par Analog amplifier In Trg Q Dir TL On Off Ax 0 Ax Analog comparator Q Q h Switch Shift Up En Par Q T Starts 1000 Analog trigger Message texts Softkey En Ax Par En TH Frequency trigger Q AX Q Q Q Ax Par AX Q OFF=On+ OT Su 20 12 20 12 20 8 No 02.25 No 04.15 TH Analog value monitor Random generator Trg S R Q Analog differential trigger Q Par Trg Q Q TL S R Q Edge-trigTrg gered interval Q time-delay relay Seven-day time switch T Trg R Q o n Trg Par Trg ← 2sec. → ← 2sec. → ← 2sec. → ← 2sec. → ← 2sec. → ← 2sec. → ← 2sec. → A/M R PV Par AQ En Sel St Par AQ En S1 S2 Par AQ En Ax Par Q Trg Stairwell light switch Dual-function switch Trg Par Q T 1s T Starts Trg Q TL Analog math Q Analog math error detection En Par AQ 15s TL TIL T1 T Q Trg R Par En R Par Q 9 FL1E New IDEC SmartRelay with enhanced performance and visibility! Advanced features enable pulse width modulation (PWM) and analog maths functions. • A maximum of 200 function blocks can be programmed, including 27 internal relays, 50 message displays, and an unlimited number of timers and counters to achieve powerful control operations (program capacity 3,800 bytes). • 10A relay outputs eliminate the need for external relays. • Expandable up to 24 digital inputs, 16 digital outputs, 8 analog inputs, and 2 analog outputs. • AS-Interface and LONWORKS® communication modules enable decentralized control. • An optional text display available. Easy operation from the control panel. • All base and expansion modules are UL/c-UL listed, FM approved, IEC61131/VDE0631 compliant, Australian EMC compliant, and marine certified (ABS, BV, DNV, GL, Lloyd’s Register, and Class NK.)∗ ∗ Surge protection device (DEHN + SÖHNE GmbH + Co, BVT AD 24 Part No. 918 402) is required for marine certification when using 12/24V and 24V DC SmartRelay modules. Types • Base Modules Rated Power Voltage 24V DC Package Quantity: 1 Input Signal Output Signal Transistor 12/24V DC DC I1, I2, I7 and I8 are used for digital/analog inputs 24V AC/DC AC/DC (Note 2) Relay 100 to 240V AC/DC AC/DC Relay Relay Display Yes Yes — Yes — Yes — Clock Yes (Note I/O Points 8/4 points 1) Yes 8/4 points Yes 8/4 points Yes 8/4 points Weight (approx.) 150g 190g 180g 190g 180g 195g 185g Type No. FL1E-H12SND FL1E-H12RCE FL1E-B12RCE FL1E-H12RCA FL1E-B12RCA FL1E-H12RCC FL1E-B12RCC Note 1: Note: FL1E-H12SND of Ver. 5 has clock function. Ver. 2, 3, and 4 do not have clock function. Note 2: With NPN/PNP sensor input. For details, see “Input Internal Circuits” on page 14. • Expansion I/O Modules Type Package Quantity: 1 Rated Power Voltage 24V DC 12/24VDC 24V AC/DC 100 to 240V AC/DC 12/24V DC 24V DC Input/Output Analog Input Analog Output Input Signal DC DC AC/DC * AC/DC Analog — Output Signal Transistor Relay Relay Relay — Analog I/O Points 4/4 points 4/4 points 4/4 points 4/4 points 2/0 points 0/2 points Weight (approx.) 90g 125g 125g 130g 80g 90g Type No. FL1B-M08B1S2 FL1B-M08B2R2 FL1B-M08D2R2 FL1B-M08C2R2 FL1B-J2B2 FL1D-K2BM2 * With NPN/PNP sensor input. For details, see “Input Internal Circuits” on page 14. •• I/O points within the maximum number of expandable I/O points can be used. •• Use of a base module and expansion I/O modules of the same power voltage rating is recommended, with power supplied to all modules using one power supply. When power is supplied to the modules from different power supplies, the fast transient noise is 1 kV (IEC61000-4-4). • Communication Modules Package Quantity: 1 Name Rated Power Voltage AS-Interface Communication Module 30V DC (AS-Interface rated voltage) LONWORKS® Communication Module 24V AC/DC I/O Points Input: 4 points Output: 4 points Input: 16 points Analog input: 8 points Output: 2 points Weight (approx.) Type No. 75g FL1B-CAS2 85g FL1B-CL1C12 • An external interface file (XIF extension) unique to each LONWORKS® communication module is needed to communicate through the LONWORKS® network. The XIF file can be downloaded from: http://www.idec.com/download/ • Text Display for FL1E Rated Power Voltage 24V AC/DC 12V DC Package Quantity: 1 Weight (approx.) Type No. (Ordering Type No.) 220g FL1E-RD1 Remarks Supplied with text display cable, mounting clip and waterproof gasket • Option Name Application Software Program WindLGC Communication Cable USB Communication Cable Memory Cartridge Battery Cartridge Memory/Battery Cartridge Mounting Clip for Base Module Mounting Clip and Waterproof Gasket for Text Display Text Display Cable Lens Removal Tool IDEC SmartRelay User’s Manual (English) LONWORKS® Communication Module User’s Manual (English) 10 Type No. FL9Y-LP1CDW FL1A-PC1 FL1E-PC2 FL1E-PM4 FL1E-PB1 FL1E-PG1 FL1B-PSP1 FL1E-KW1 FL1E-RDC1 MT-101 FL9Y-B1090 FL9Y-B695 Ordering Type No. FL9Y-LP1CDW FL1A-PC1 FL1E-PC2 FL1E-PM4 FL1E-PB1 FL1E-PG1 FL1B-PSP1PN05 FL1E-KW1 FL1E-RDC1 MT-101 FL9Y-B1090 FL9Y-B695 Package Quantity 1 1 1 1 1 1 5 1 1 1 1 1 Remarks CD-ROM (incl. online help manual) With read/write protect function Backup duration 2 years (typ.) Supplied with a module Supplied with text display Length: 2.5m For removing memory and cartridges Downloadable from: http://www.idec.com/download/ (100617) FL1E Base Module Specifications Base Module Type No. FL1E-H12SND Rated Power Voltage 24V DC Allowable Voltage Range 20.4 to 28.8V DC 10.8 to 28.8V DC — — Power Supply Rated Frequency Current Draw 40 to 75 mA (24V DC) Allowable Momentary Power Interruption Clock Power Consumption 76 to 182 mA (12V DC) 40 to 100 mA (24V DC) 2 ms Typ. (12V DC) 5 ms Typ. (24V DC) 5 ms Typ. (24V AC/DC) 0.7 to 2.1W (12V DC) 1.0 to 2.4W (24V DC) 1.8 to 4.4 VA (24V AC) 1.0 to 2.4W (24V DC) Yes Yes 80 hours (Note 1) (Note 5) 80 hours (Note 1) 80 hours (Note 1) Clock Accuracy ±5 sec/day maximum (Note 5) ±5 sec/day maximum ±5 sec/day maximum ±5 sec/day maximum Input Signal DC DC AC/DC AC/DC Input Points 8 (I1 to I8) 8 (I1 to I8) 8 (I1 to I8) Analog Input Points 4 (I1, I2, I7, I8) 4 (I1, I2, I7, I8) — — High-speed Input (Note 2) 4 (I3, I4, I5, I6), 5 kHz maximum 0 to 10V DC (max. rated input: 28.8V DC) ±1.5 (of full scale) — — — — Analog Input Error 4 (I3, I4, I5, I6), 5 kHz maximum 0 to 10V DC (max. rated input: 28.8V DC) ±1.5 (of full scale) — — Analog Input Resolution 10 bits (0 to 1000) 10 bits (0 to 1000) — Input Impedance Input 1.0 to 1.8W (24V DC) 60 to 175 mA (12V DC) 40 to 100 mA (24V DC) 0 to 28.8V DC 0 to 28.8V DC Digital Input 3.5 kΩ 3.5 kΩ Analog Input 72 kΩ Isolation — FL1E-H12RCC FL1E-B12RCC 100 to 240V AC/DC 85 to 265V AC 100 to 253V DC 47 to 63 Hz 25 to 40 mA (100V AC) 20 to 30 mA (240V AC) 10 to 25 mA (100V DC) 6 to 15 mA (240V DC) 10 ms Typ. (100V AC/DC) 20 ms Typ. (240V AC/DC) 2.8 to 4.6 VA (100V AC) 4.8 to 7.2 VA (240V AC) 1.1 to 2.9 W (100V DC) 1.4 to 3.6 W (240V DC) — Reverse Polarity Protection Allowable Voltage Range 72 kΩ — — 0 to 265V AC 0 to 253V DC 840 kΩ — — — — < 5V DC < 5V DC < 5V AC/DC ON Voltage ≥ 12V DC ≥ 8.5 V DC ≥ 12V AC/DC < 0.85 mA (I3 to I6) < 0.05 mA (I1, I2, I7, I8) ≥ 2 mA (I3 to I6) ≥ 0.15 mA (I7, I8) < 0.85 mA (I3 to I6) < 0.05 mA (I1, I2, I7, I8) ≥ 1.5 mA (I3 to I6) ≥ 0.1 mA (I1, I2, I7, I8) Turn ON Time 1.5 ms (Typ.) ≤ 1.0 ms (I3 to I6) 1.5 ms (Typ.) ≤ 1.0 ms (I3 to I6) 1.5 ms (Typ.) Turn OFF Time 1.5 ms (Typ.) ≤ 1.0 ms (I3 to I6) 1.5 ms (Typ.) ≤ 1.0 ms (I3 to I6) 15 ms (Typ.) OFF Current 80 hours (Note 1) 8 (I1 to I8) 0 to 26.4V AC 0 to 28.8V DC 4.8 kΩ OFF Voltage Operating Range — < 40V AC < 30V DC ≥ 79V AC ≥ 79V DC < 1.0 mA < 0.03 mA Wire Length 100m (Note 3) 100m (Note 3) 100m ≥ 0.08 mA (AC) < 0.12 mA (DC) 100V AC: 50 ms (Typ.) 240V AC: 30 ms (Typ.) 100V DC: 25 ms (Typ.) 240V DC: 15 ms (Typ.) 100V AC: 65 ms (Typ.) 240V AC: 105 ms (Typ.) 100V DC: 95 ms (Typ.) 240V DC: 125 ms (Typ.) 100m Output Signal Output Points/ Contact Configuration Isolation Dielectric Strength (between power/input terminals and output terminals) Output Voltage Transistor source output Relay output Relay output Relay output 4 points (separate) 4NO contacts 4NO contacts 4NO contacts — Isolated Isolated Isolated — 2500V AC, 1 minute 500V DC, 1 minute 2500V AC, 1 minute 500V DC, 1 minute 2500V AC, 1 minute 500V DC, 1 minute Maximum Load Current 0.3A maximum Surge Current — Built-in current limiting resistor: Approx. 1A — — Resistive load 10A at 12/24V AC/DC 10A at 100/120V AC 10A at 230/240V AC Inductive load 2A at 12/24V AC/DC 3A at 100/120V AC 3A at 230/240V AC 30A maximum External fuse required: 16A maximum 10 mA, 2V DC 100 mΩ maximum (at 1A, 24V DC) 10 million operations (no load, 10 Hz) 100,000 operations (rated resistive load) 1800 operations/hour 10 Hz — Resistive load 10A at 12/24V AC/DC 10A at 100/120V AC 10A at 230/240V AC Inductive load 2A at 12/24V AC/DC 3A at 100/120V AC 3A at 230/240V AC 30A maximum External fuse required: 16A maximum 10 mA, 12V DC 100 mΩ maximum (at 1A, 24V DC) 10 million operations (no load, 10 Hz) 100,000 operations (rated resistive load) 1800 operations/hour 10 Hz — Resistive load 10A at 12/24V AC/DC 10A at 100/120V AC 10A at 230/240V AC Inductive load 2A at 12/24V AC/DC 3A at 100/120V AC 3A at 230/240V AC 30A maximum External fuse required: 16A maximum 10 mA, 12V DC 100 mΩ maximum (at 1A, 24V DC) 10 million operations (no load, 10 Hz) 100,000 operations (rated resistive load) 1800 operations/hour 10 Hz ON Current Output — FL1E-H12RCA FL1E-B12RCA 24V AC/DC 20.4 to 26.4V AC 20.4 to 28.8V DC 47 to 63 Hz Backup Duration Analog Input Range Short-circuit Protection Minimum Switching Load Switching Rate FL1E-H12RCE FL1E-B12RCE 12/24V DC External power voltage Initial Contact Resistance — Mechanical Life — Electrical Life — Mechanical Load (Note 4) — ≥ 2.5 mA Electrical Load 10 Hz Resistive Load/Lamp Load 10 Hz 2 Hz — 2 Hz — 2 Hz — Inductive Load 0.5 Hz 0.5 Hz 0.5 Hz 0.5 Hz Note 1: 2 year backup duration (typ.) when battery cartridge or memory/battery cartridge is used. Note 2: When selecting frequency trigger function and up/down counter function. Note 3: 10m when connected to analog input (twisted pair cable) Note 4: For fluorescent lamps, if the inrush current exceeds the allowable value, use an appropriate relay. Note 5: FL1E-H12SND of Ver. 4 and before does not have clock function. Initialization Time: After power-up, the FL1E takes a maximum of 10 seconds (when using a memory cartridge or memory/battery cartridge) or 9 seconds (without using any cartridges or when using a battery cartridge) for initialization. When initialization is complete, the FL1E is automatically set to RUN mode. (100617) 11 FL1E Expansion I/O Module Specifications Expansion I/O Module Type No. FL1B-M08B1S2 Power Supply FL1B-J2B2 24V AC/DC 100 to 240V AC/DC 12/24V DC Allowable Voltage Range 20.4 to 28.8V DC 10.8 to 28.8V DC 20.4 to 26.4V AC 20.4 to 28.8V DC 85 to 265V AC 100 to 253V DC 10.8 to 28.8V DC 50/60Hz (47 to 63Hz) 50/60Hz (47 to 63Hz) Current Draw — 30 to 45 mA Allowable Momentary Power Interruption — — 30 to 140 mA (12V DC) 20 to 75 mA (24V DC) 120 to 146 mA (24V AC) 20 to 75 mA (24V DC) 2 ms (typ.) (12V DC) 5 ms (typ.) (24V DC) 5 ms (typ.) (24V AC/DC) 34 to 45 mA (100V AC) 30 to 32 mA (240V AC)   5 to 15 mA (100V DC)   5 to 10 mA (240V DC) 10 ms (typ) (100V AC/DC) 20 ms (typ.) (240V AC/DC) 3.9 to 4.1VA (100V AC) 7.4 to 7.6VA (240V AC) 0.5 to 1.8W (100V DC) 1.2 to 2.4W (240V DC) 35 to 90 mA 5 ms (typ.) (12/24V DC) 5 ms (typ.) 0.3 to 0.6W (12V DC) 0.6 to 1.2W (24V DC) 0.9 to 2.2W Yes 2.4 to 4.3VA (24V AC) 0.4 to 1.8W (24V DC) Reverse Polarity Protection Yes Yes — — Yes Input Signal DC input DC input AC/DC input AC/DC input Analog input Input Points 4 4 4 4 — — — — 0 to 28.8V DC 0 to 26.4V AC 0 to 28.8V DC 0 to 265V AC 0 to 253V DC < 40V AC < 30V DC ≥ 79V AC ≥ 79V DC < 5V DC < 5V DC < 5V AC/DC ≥ 12V DC ≥ 8.5V DC ≥ 12V AC/DC — — 0 to 28.8V DC OFF Voltage — 25 to 50 mA 0.3 to 1.7W (12V DC) 0.4 to 1.8W (24V DC) ON Voltage 20.4 to 28.8V DC — 0.8 to 1.1W Operating Range FL1D-K2BM2 24V DC Power Consumption Isolation Input FL1B-M08C2R2 12/24V DC Allowable Voltage Range — — — — — — — — — OFF Current < 0.85 mA < 0.85 mA < 1.0 mA < 0.03 mA — — ON Current ≥ 2 mA ≥ 1.5 mA ≥ 2.5 mA ≥ 0.08 mA — — Turn ON Time 1.5 ms (Typ.) 1.5 ms (typ.) 1.5 ms (typ.) — — Turn OFF Time 1.5 ms (Typ.) 1.5 ms (typ.) 15 ms (typ.) — — Analog Input Points — Analog Input Range — — 100V AC: 50 ms (typ.) 240V AC: 30 ms (typ.) 100V DC: 25 ms (typ.) 240V DC: 15 ms (typ.) 100V AC: 65 ms (typ.) 240V AC: 105 ms (typ.) 100V DC: 95 ms (typ.) 240V DC: 125 ms (typ.) — — — — 2 — — 0 to 10V (max. rated input: 28.8V) 0 to 20 mA (max. rated input: 40 mA) — Digital Resolution — — — — 10 bits (0 to 1000) — Input Error — — — — ±1.5% (of full scale) — Input Impedance — — — — 76 kΩ (0 to 10V) 250Ω (0 to 20mA) — Sampling Cycle — — — — 50ms — 10m (twisted-pair shielded cable) Wire Length 100m 100m 100m 100m Output Signal Transistor source output Relay output Relay output Relay output Output Points/ Contact Configuration 4 points (separate) — — Analog output 4NO contacts 4NO contacts 4NO contacts — — Isolation — Isolated Isolated Isolated — — Dielectric Strength (between power/input terminals and output terminals) — 2500V AC, 1 minute 500V DC, 1 minute 2500V AC, 1 minute 500V DC, 1 minute 2500V AC, 1 minute 500V DC, 1 minute — — — — — — Output Voltage Output FL1B-M08D2R2 24V DC Rated Frequency Switching Rate FL1B-M08B2R2 Rated Power Voltage External power voltage (20.4 to 28.8V DC) Maximum Load Current 0.3A maximum Short-circuit Protection Built-in current limiting resistor: Approx. 1A Minimum Switching Load — Initial Contact Resistance — Mechanical Life — Electrical Life — Analog Output Points — Analog Output Range — — — — Resistive load 5A at 12/24V AC/DC 5A at 100/120V AC 5A at 230/240V AC Inductive load 2A at 12/24V AC/DC 3A at 100/120V AC 3A at 230/240V AC External fuse required: 16A maximum Resistive load 5A at 12/24V AC/DC 5A at 100/120V AC 5A at 230/240V AC Inductive load 2A at 12/24V AC/DC 3A at 100/120V AC 3A at 230/240V AC External fuse required: 16A maximum Resistive load 5A at 12/24V AC/DC 5A at 100/120V AC 5A at 230/240V AC Inductive load 2A at 12/24V AC/DC 3A at 100/120V AC 3A at 230/240V AC External fuse required: 16A maximum 10 mA, 12V DC 10 mA, 12V DC 10 mA, 12V DC 100 mΩ maximum (at 1A, 24V DC) 10 million operations (no load, 10 Hz) 100,000 operations (rated resistive load) 1800 operations/hour — 100 mΩ maximum (at 1A, 24V DC) 10 million operations (no load, 10 Hz) 100,000 operations (rated resistive load) 1800 operations/hour — 100 mΩ maximum (at 1A, 24V DC) 10 million operations (no load, 10 Hz) 100,000 operations (rated resistive load) 1800 operations/hour — — — — — Yes — — — — — — — — — — Digital Resolution — — — — — Output Error (of full scale) — — — — — Output Impedance — — — — — 2 Voltage: 0-10V DC Current: 0-20, 4-20 mA 10 bits (0 to 1000) Voltage output: ±2.5% Current output: ±3% Voltage: 5 kΩ minimum Current: 250Ω maximum Analog Value Conversion Interval — — — — — Wire Length — — — — — — — — Mechanical Load (Note) Electrical Load Resistive Load/ Lamp Load Inductive Load —  10 Hz  10 Hz  10 Hz —  10 Hz — — 50 ms (typ.) 10m (twisted-pair shielded cable) —  10 Hz   2 Hz   2 Hz   2 Hz — — 0.5 Hz 0.5 Hz 0.5 Hz 0.5 Hz — — Note: For fluorescent lamps, if the inrush current exceeds the allowable value, use an appropriate relay. 12 (100617) FL1E Relative Humidity 0 to 55°C Standard Cold: IEC60068-2-1 Hot: IEC60068-2-2 0 to 55°C –40 to +70°C (no freezing) 10 to 95% (no condensation) — IEC60068-2-30 Atmospheric Pressure 795 to 1080 hPa — Operating Condition No corrosive gas — Degree of Protection IP20 — Vibration Resistance 5 to 8.4 Hz, amplitude 3.5 mm 8.4 to 150 Hz, acceleration 9.8 m/s2 m/s2 IEC60068-2-6 IEC60068-2-27 Shock Resistance 147 Drop Test (packaged) 0.3m IEC60068-2-32 Limit class B Group 1 (Note 1) EN55011/A EN55022/B EN50081-1 Emissions Electrostatic Discharge Immunity Radiation Field Immunity Fast Transient Burst Surge Immunity (Note 4) (FL1E-H12RCC, FL1E-B12RCC only) 8 kV air discharge 6 kV contact discharge (Note 2) Field Strength: 1 V/m and 10 V/m 2 kV (power line) 1 kV (I/O signal line) (Note 3) 1 kV (power line) normal 2 kV (power line) common IEC61000-4-2 IEC61000-4-3 IEC61000-4-4 IEC61000-4-5 mm2 Communication Cable (one wire) 0.5 to 2.5 0.5 to 1.5 mm2 (two wires) — Terminal Style Finger-safe type (Note 5) — Note 1: Class A for AS-Interface communication module Note 2: 8 kV (air discharge), 4 kV (contact discharge) for AS-Interface communication module Note 3: 1 kV (criteria A), 2 kV (criteria B) for AS-Interface communication module Note 4: For protection against surge noise on DC power supply types (FL1E-H12RCE/ B12RCE, FL1E-H12SND, FL1E-H12RCA/B12RCA), use surge absorbers, noise cut transformers, or noise filters. Use of a surge protection device (DEHN + SÖHNE GmbH + Co, BVT AD 24 Part No. 918 402) is recommended. Note 5: Tightening torque 0.4 to 0.5 N·m Text Display Specifications • Specifications Dimensions (W × H × D) Weight (approx.) Installation Keyboard Display 128.2 × 86 × 38.7 mm 220g Panel cut-out using mounting clips Membrane keypad with 10 keys FSTN graphic display (W × H: 128 × 64 dots) LED backlight • Power Supply Power Voltage Allowable Voltage Range Allowable Voltage Frequency Power Consumption Data Transmission Rate 24V AC/DC 12V DC 20.4 to 26.4V AC 10.2 to 28.8V DC 47 to 63Hz 12V DC: 65 mA (Typ.) 24V DC: 40 mA (Typ.) 24V AC: 90 mA (Typ.) 19200 baud • LCD Display / Backlight LCD Display Durability (Note 1) Backlight Durability (Note 2) 50,000 hours 20,000 hours ∗Connect the text display and the base module using the text display cable (2.5m). The text display cable can be extended up to 10m using an extension cable (D-sub 9-pin). • Specifications Module Type Slave Type AS-Interface slave module Standard I/O code: 7 ID code: F ID2 code: F Profile Input/Output Virtual input: 4 Virtual output: 4 Rated AS-Interface Voltage Current Draw 30V DC (26.5 to 31.6V DC) 70 mA max. (AS-Interface) • I/O Allocation Input Output AS-Interface SmartRelay SmartRelay AS-Interface Output Data Bit D0 Input In Output Qm Input Data Bit D0 Output Data Bit D1 Input In+1 Output Qm+1 Input Data Bit D1 Output Data Bit D2 Input In+2 Output Qm+2 Input Data Bit D2 Output Data Bit D3 Input In+3 Output Qm+3 Input Data Bit D3 • I/O point numbers “n” and “m” of the SmartRelay are automatically allocated by the base module according to the mounted position of the AS-Interface communication module. • AS-Interface communication module is IP20 terminal type. • AS-Interface cable is connected to the terminal block. LONWORKS® Communication Module: FL1B-CL1C12 • Specifications Rated Power Voltage 24V AC/DC (20.4 to 26.4V AC / 20.4 to 28.8V DC) Rated Frequency 50/60 Hz (47 to 63 Hz) Current Draw 33 mA max. Communication System LON® system Transceiver FTT-10A Topology Bus topology / Free topology Transmission Rate 78 kbps Neuron Chip TMPN3120FE5M (Toshiba) CPU Clock Frequency Transmission Distance 20 MHz Bus topology 1,400m (only FTT-10A transceiver, when using Level 4 AWG22 cable) Free topology 500m total, 400m between nodes (when using Level 4 AWG22 cable) • Network Variables SNVT Type Application SNVT_obj_request: (Quantity 1) Input Network Variable Output Network Variable Request object status SNVT_switch: (Quantity 14) Switch light, alarm, window contact, free inputs/outputs SNVT_occupancy: (Quantity 2) Occupancy SNVT_temp_p: (Quantity 1) Room temperature (°C) SNVT_lux: (Quantity 1) Brightness - lightening level (lux) SNVT_lev_percent: (Quantity 6) Position (%) SNVT_obj_status: (Quantity 1) Output object status SNVT_switch: (Quantity 8) Switch light, alarm, window contact, free inputs/outputs SNVT_occupancy: (Quantity 2) Occupancy SNVT_tod_event: (Quantity 2) Scheduler program Just current state • Block Diagram 20 MHz 20 MHz TXD TXD LON Internal Bus Note1: Display durability is calculated under ordinary operating and storage conditions: room temperature, normal humidity below 65% RH, and not subjected to direct sunlight. Note 2: Backlight durability is the number of hours taken for the light to become 50% of the original brightness. AS-Interface Communication Module: FL1B-CAS2 Neuron Chip CPU RXD RXD RXD NET-A FTT-10A X2 TXD NET-B NET-A Horizontal Mounting Vertical Mounting Storage/Transportation Temperature Operating Temperature Specifications NET-B Item Interface Circuit General Specifications • Configuration Property SCPT Type Configuration Property (100617) SCPTmaxSendTime: (Quantity 12) Application Send heartbeat 13 FL1E Input Internal Circuits Analog Current Input •• FL1B-J2B2 DC Input •• FL1E-H12SND, -H12RCE, -B12RCE •• FL1B-M08B1S2, -M08B2R2 L+ I3 to I6 3.6 k 270 k 0V DC 3-wire Sensor Internal Circuit •• FL1E-H12RCA, -B12RCA •• FL1B-M08D2R2 Internal Circuit NPN Output 3.6 k OUT 270 k I3 to I6 100 nF I1 to I8 L+ (12/24V DC) OUT Internal Circuit I1, I2, I7, I8 +5V M 0V P1 (0V) Note 4: Bleeder resistance (R6) calculation R6 must satisfy the following three conditions. Condition 1: R6 (Ω) ≤ Maximum input OFF voltage (= 5V AC) I1 to I8 AC 2-wire Sensor R6 Maximum sensor leakage current (A) P1 24V AC Sensor power voltage (V) Minimum sensor load current (A) P2 The voltage drop across the load (R6) must be less than 5V while the sensor is turned off. {Sensor power voltage (V)}2 R6 resistance (Ω) × 3 (3: recommended allowance) 100 to 240V AC/DC Note 2: I1, I2, I7 and I8 accept both digital and analog inputs. The diagram above is for using I1, I2, I7, and I8 as digital inputs. When using an NPN output sensor, connect an external resistor (I1, I2, I7, I8): FL1E-H12SND For power voltage 24V DC: R3 ≤ 50 kΩ, 1/8W FL1E-H12RCE/-B12RCE For power voltage 24V DC: R3 ≤ 100 kΩ, 1/8W For power voltage 12V DC: R3 ≤ 19 kΩ, 1/8W Analog Voltage Input •• FL1E-H12RCC, -B12RCC •• FL1B-M08C2R2 L1 390 k R7 270 k I1 to I8 I1 to I8 AC 2-wire Sensor R9 Internal Circuit N 100 to 240V AC R8 100 nF L FL1E-H12RCC, -B12RCC: R7=180 kΩ, R8=47 kΩ FL1E-M08C2R2: R7=390 kΩ, R8=62 kΩ •• FL1E-H12SND, -H12RCE, -B12RCE •• FL1B-J2B2 + R4 0 to 10V I1, I2, I7, I8 (U1, U2) 10 nF – M (M1, M2) Note 5: Bleeder resistance (R9) calculation Internal Circuit R9 must satisfy the following three conditions. R5 Condition 1: R9 (Ω) ≤ Output Internal Circuits Condition 2: R9 (Ω) ≤ Sensor power voltage (V) Minimum sensor load current (A) The voltage drop across the load (R9) must be less than 40V while the sensor is turned off. Condition 3: PR9 (W) ≥ {Sensor power voltage (V)}2 DC Output (Transistor Source Output) • FL1E-H12RCE, -B12RCE, -H12RCA, -B12RCA, -H12RCC, -B12RCC  240V AC/24V DC L1 L+ • FL1B-M08B2R2, -M08D2R2, -M08C2R2 Fuse 240V max. 10A max. Maximum sensor leakage current (A) R9 resistance (Ω) × 3 (3: recommended allowance) Analog Voltage Output Relay Output Q1 to Q4 +24V Internal Circuit 2 Maximum input OFF voltage (= 40V AC) +5V FL1E-H12SND, -H12RCE, -B12RCE: R4 = 54 kΩ, R5 = 18 kΩ FL1B-J2B2 : R4 = R5 = 38 kΩ Note 3: I1, I2, I7, and I8 accept both digital and analog inputs. When connecting an analog input, use a twisted pair cable, and keep the cable as short as possible. 1 I1 to I8 DC 3-wire Sensor Condition 3: PR6 (W) ≥ 10 nF 18 k DC 3-wire Sensor P1 (0V) Internal Circuit 510 4.3 k OUT NPN Output Condition 2: R6 (Ω) ≤ 54 k 0V P2 (0V) +V P2 (24V DC) M R3 NPN Output 0V R2 C1 +V I1, I2, I7, I8 DC 3-wire Sensor Internal Circuit Note 1: When using an NPN output sensor, connect an external resistor (I3 to I6): FL1E-H12SND: For power voltage 24V DC: R1 ≤ 4 kΩ, 1/4W FL1E-H12RCE, -B12RCE: For power voltage 24V DC: R1 ≤ 8.1 kΩ, 1/4W For power voltage 12V DC: R1 ≤ 1.5 kΩ, 1/4W FL1E-H12SND, -H12RCE, -B12RCE: R2 = 2.21 kΩ, C1 = 47 nF FL1B-M08B1S2, -M08B2R2 (I1 to I4): R2 = 2.2 kΩ, C1 = 100 nF L+ 510 100 nF DC 3-wire Sensor 14 4.3 k OUT I1 to I8 0V Internal Circuit PNP Output I1 to I8 L+ (12/24V DC) R1 I3 to I6 +V P1 (24V DC) P1 (24V) R2 C1 M +V L+ M1, M2 24V AC/DC Input OUT I3 to I6 10 nF 125 kΩ – PNP Output Internal Circuit I1, I2 0 to 20 mA L+ (12/24V DC) +V 30 to 125Ω + L Load • FL1E-H12SND • FL1B-M08B1S2 • FL1D-K2BM2 (0-10V DC) Internal Circuit +24V Internal Circuit + - +24V Internal Circuit 10 (V1+, V2+) 100 nF 4.7 k (M1, M2) Q1 to Q4 Internal Circuit 10 nF 10 kΩ Fuse 24V DC 0.3A max. L Load 10 nF M N, M Note 6: When connecting to a DC input type PLC, use a negative common sink input type. Analog Current Output • FL1D-K2BM2 (0-20, 4-20 mA DC) Internal Circuit +14V Internal Circuit 22Ω (I1, I2) 10 nF (M1, M2) (100617) FL1E Dimensions I2 I3 I4 I5 I6 I7 • Text Display I8 Q1 Q2 Q3 86 I1 90 M 35 L+ 4 • Base Module F1 Q4 55 60 72 4 2 Q1 Q3 1 2 Q2 1 Q4 90 78.5 + 0.5mm 1 ESC OK 11 12 13 14 RUN/STOP 1 F4 119.5 + 0.5mm 4 M 35 L+ F3 128.2 38.7 (Panel Cutout) • Expansion I/O Module, Communication Module F2 2 2 55 58 36 • Panel Mounting Mounting clip • Mounting Hole Layout (Using Mounting Slides) 35.5+0.2 –0.0 53.5 +0.2 –0.0 98±0.3 Mounting screws (tightening torque: 0.15 to 0.2 N·m) Expansion Expansion Module Module Communication Communication Module Module Base Module Expansion Module Communication Module Mounting clip 2-ø4 Mounting Holes Waterproof Gasket n × 35.5 +0.2 –0.0 Panel (thickness: 1.5 to 4 mm) All dimensions in mm. Instructions Module Expansion Base module of rated operating voltage 12/24V DC, 24V DC, and 24V AC/DC Use the base module, expansion I/O modules, and communication modules according to the combinations shown on the right. Base Module ➀ 1st Expansion Module 12/24V DC 12/24V DC 24V DC (incl.analog input, communication module) 24V AC/DC 24V DC ∗ 24V AC/DC ➁ 2nd Expansion Module 12/24V DC 24V DC ∗ (incl.analog input, communication module) 24V AC/DC ➇ 8th Expansion Module DC DC 12/24V DC 24V DC ∗ (Analog) (incl.analog input, communication module) AC 24V AC/DC 24V DC Base module of rated operating voltage 100V to 240V AC/DC ➀ ➁ ➂ ➃ ➄ ➅ ➆ ➇ ➈ *Only one LONWORKS® communication module can be installed at the far right end of the row. Base Module 100 to 240V AC/DC ➀ 1st Expansion Module ➁ 2nd Expansion Module ➈ 9th Expansion Module ➇ 8th Expansion Module 100 to 240V AC/DC 100 to 240V AC/DC AC 100 to 240V AC/DC Analog input, communication Analog input, communication Analog Analog input, communication (incl.analog output, communication module) module ∗ module ∗ module ∗ 1. A maximum of 9 expansion I/O modules and communication modules can be connected to a base module. 12/24V DC 12V AC/DC DC 2. A maximum of 4 combination I/O modules, 4 analog input modules, and 1 analog output module can be connected to a base module. 24V DC 24V DC DC 3. When using modules of the same power voltage, supply power to the base module and expansion I/O modules using one power supply. When power is supAC 24V AC/DC 24V AC/DC plied to the modules from different power supplies, the fast transient burst is 1 kV (IEC61000-4-4). 4. A 100 to 240V AC/DC module cannot be connected to the right side of a 12/24V DC, 24V DC, or 24V AC/DC module. 5. For analog input module and AS-Interface communication module, a module of any voltage can be connected to the left side. To the right side, however, a 100 to 240V AC/DC module cannot be connected. 6. Before connecting and disconnecting modules, turn power off. AS-Interface Communication Module • A maximum of 4 AS-Interface communication modules can be connected to a base module. • AS-Interface communication module can be connected to any base module and expansion I/O modules. • A 100 to 240V AC/DC module cannot be connected to the right side of AS-Interface communication module. LONWORKS® Communication Module • LONWORKS® communication module can be connected to any base module and expansion I/O modules. • Only one LONWORKS® communication module can be installed. Always install the module at the far right end. (100617) 15 FL1E Instructions Wiring Initialization after Power-up Base Module and Expansion I/O Module • Connect an IEC60127 approved fuse to the power supply for protection against overload and short circuit. • Do not connect input wire and communication cable in parallel or near the power line, output line, or motor line. Also make sure that any noise source is not present nearby. • Use 0.5 to 2.5 mm2 wires (for one-wire) or 0.5 to 1.5 mm2 wires (for two-wire) for power line, input line, and output line (tightening torque: 0.4 to 0.5 N·m). LONWORKS® Communication Module • Use LONWORKS® compatible cables for network wiring of the LONWORKS® communication module. • Initialization starts when the FL1E base module is powered up. When initialization is complete, the FL1E is automatically set to RUN mode. When using the FL1E base module with display, an hourglass appears on the display during the initialization. When using the FL1E without display, the red LED flashes during the initialization. • Initialization time When a memory cartridge or memory/battery cartridge is used: 10 seconds maximum When a cartridge is not used, or battery cartridge is used: 9 seconds maximum ∗Initialization time varies according the program size. AS-Interface Communication Module Purpose Specification Type No. Signal / Power EPDM (rubber) yellow F-LINK-ASYE Signal / Power TPE (heat-resistant PVC) yellow F-LINK-ASYT Auxiliary Power EPDM (rubber) black F-LINK-ASBE Auxiliary Power TPE (heat-resistant PVC) black F-LINK-ASBT *Available from IDEC • When connecting AS-Interface cable to an AS-Interface communication module, make sure that the brown cable is connected to terminal +, and the blue cable to terminal –. The two + terminals and two – terminals are both connected internally. Enlarged View Brown Blue AS-Interface Cable Safety Precautions ••All IDEC SmartRelay devices are manufactured under IDEC’s rigorous quality control system, but users must add a backup or failsafe provision to the control system using the device in applications where heavy damage or personal injury may be caused in case the device should fail. ••Turn off the power to the device before installation, removal, wiring, maintenance, and inspection of the device. Failure to turn power off may cause electric shocks or fire hazard. ••Special expertise is required to install, wire, program, and operate the IDEC SmartRelay devices. People without such expertise must not use the IDEC SmartRelay devices. ••Read the user’s manual or operating instruction sheet attached to the product to make sure of correct operation. Specifications and other descriptions in this catalog are subject to change without notice. 7-31, Nishi-Miyahara 1-Chome, Yodogawa-ku, Osaka 532-8550, Japan Tel: +81-6-6398-2571, Fax: +81-6-6392-9731 E-mail: marketing@idec.co.jp IDEC CORPORATION (USA) Wendenstrasse 331, 20537 Hamburg, Germany Tel: +49-40-25 30 54 - 0, Fax: +49-40-25 30 54 - 24 E-mail: service@idec.de IDEC CANADA LIMITED Room 608-609, 6F, Gangtai Plaza, No. 700, Yan'an East Road, Shanghai 200001, PRC Tel: +86-21-5353-1000, Fax: +86-21-5353-1263 E-mail: idec@cn.idec.com 3155 Pepper Mill Court, Unit 4, Mississauga, Ontario, L5L 4X7, Canada Tel: +1-905-890-8561, Toll Free: (888) 317-4332 Fax: +1-905-890-8562 E-mail: sales@ca.idec.com IDEC AUSTRALIA PTY. LTD. 2/3 Macro Court, Rowville, Victoria 3178, Australia Tel: +61-3-9763-3244, Toll Free: 1800-68-4332 Fax: +61-3-9763-3255 E-mail: sales@au.idec.com IDEC ELECTRONICS LIMITED www.idec.com 16 Unit 2, Beechwood, Chineham Business Park, Basingstoke, Hampshire RG24 8WA, UK Tel: +44-1256-321000, Fax: +44-1256-327755 E-mail: sales@uk.idec.com IDEC IZUMI (H.K.) CO., LTD. IDEC ELEKTROTECHNIK GmbH 1175 Elko Drive, Sunnyvale, CA 94089-2209, USA Tel: +1-408-747-0550 / (800) 262-IDEC (4332) Fax: +1-408-744-9055 / (800) 635-6246 E-mail: opencontact@idec.com IDEC (SHANGHAI) CORPORATION Units 11-15, Level 27, Tower 1, Millennium City 1, 388 Kwun Tong Road, Kwun Tong, Kowloon, Hong Kong Tel: +852-2803-8989, Fax: +852-2565-0171 E-mail: info@hk.idec.com IDEC TAIWAN CORPORATION 8F-1, No. 79, Hsin Tai Wu Road, Sec. 1, Hsi-Chih, Taipei County, Taiwan Tel: +886-2-2698-3929, Fax: +886-2-2698-3931 E-mail: service@tw.idec.com IDEC (BEIJING) CORPORATION Room 211B, Tower B, The Grand Pacific Building, 8A Guanghua Road, Chaoyang District, Beijing 100026, PRC Tel: +86-10-6581-6131, Fax: +86-10-6581-5119 IDEC IZUMI ASIA PTE. LTD. IDEC (SHENZHEN) CORPORATION Unit AB-3B2, Tian Xiang Building, Tian’an Cyber Park, Fu Tian District, Shenzhen, Guang Dong 518040, PRC Tel: +86-755-8356-2977, Fax: +86-755-8356-2944 No. 31, Tannery Lane #05-01, HB Centre 2, Singapore 347788 Tel: +65-6746-1155, Fax: +65-6844-5995 E-mail: info@sg.idec.com Cat. No. EP1253-1-1 JUNE 2010 PDF (100617)