'06-'07 Timers/Time Switches/Counters/Hour Meters Timers/Time Switches/Counters/Hour Meters '06-'07 Please contact .......... Matsushita Electric Works, Ltd. Automation Controls Business Unit Head Office: 1048, Kadoma, Kadoma-shi, Osaka 571-8686, Japan Telephone: +81-6-6908-1050 Facsimile: +81-6-6908-5781 http://www.nais-e.com/ All Rights Reserved (c) 2006 COPYRIGHT Matsushita Electric Works, Ltd. ARCT1B274E 200610-3YT Specifications are subject to change without notice. Matsushita Electric Works, Ltd. These materials are printed on ECF pulp. These materials are printed with earth-friendly vegetable-based (soybean oil) ink. Timers/Time Switches/Counters/Hour Meters ARCT1B274E '06.10 Printed in Japan. Matsushita Electric Works, Ltd. LC4H/-L LC4H/-L Counters DIN 48 SIZE LCD ELECTRONIC COUNTER LC4H Counters UL File No.: E122222 C-UL File No.: E122222 Features 48 1.890 4-digit display 48 1.890 64.5 2.539 mm inch 6-digit display Pin type 1. Bright and Easy-to-Read Display A brand new bright 2-color backlight LCD display. The easy-to-read screen in any location makes checking and setting procedures a cinch. 2. Simple Operation Seesaw buttons make operating the unit even easier than before. 3. Short Body of only 64.5 mm 2.539 inch (screw type) or 70.1 mm 2.760 inch (pin type) With a short body, it easily installs in even narrow control panels. 4. Conforms to IP66's Weather Resistant Standards The water-proof panel keeps out water and dirt for reliable operation even in poor environments. 5. Screw terminal and Pin Type are Both Standard Options The two terminal types are standard options to support either front panel installation or embedded installation. 6. Changeable Panel Cover Also offers a black panel cover to meet your design considerations. 7. 4-digit or 6-digit display Two sizes of displays are offered for you to choose the one that suits your needs. 8. Compliant with UL, c-UL and CE. Screw terminal type RoHS Directive compatibility information http://www.nais-e.com/ Product types Digit Count speed Output mode Output Operating voltage Power down insurance 100 to 240 V AC Relay (1c) 24 V AC 12 to 24 V DC 4 100 to 240 V AC 30 Hz (cps)/ 5 KHz (Kcps) switchable * Maintain output/hold count * Maintain output/over count I * Maintain output/over count II * One shot/over count * One shot/recount I * One shot/recount II * One shot/hold count (7 modes) Transistor (1a) 24 V AC 12 to 24 V DC Available 100 to 240 V AC Relay (1c) 24 V AC 12 to 24 V DC 6 100 to 240 V AC Transistor (1a) 24 V AC 12 to 24 V DC Terminal type 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal Part number LC4H8-R4-AC240V LC4H-R4-AC240V LC4H-R4-AC240VS LC4H8-R4-AC24V LC4H-R4-AC24V LC4H-R4-AC24VS LC4H8-R4-DC24V LC4H-R4-DC24V LC4H-R4-DC24VS LC4H8-T4-AC240V LC4H-T4-AC240V LC4H-T4-AC240VS LC4H8-T4-AC24V LC4H-T4-AC24V LC4H-T4-AC24VS LC4H8-T4-DC24V LC4H-T4-DC24V LC4H-T4-DC24VS LC4H8-R6-AC240V LC4H-R6-AC240V LC4H-R6-AC240VS LC4H8-R6-AC24V LC4H-R6-AC24V LC4H-R6-AC24VS LC4H8-R6-DC24V LC4H-R6-DC24V LC4H-R6-DC24VS LC4H8-T6-AC240V LC4H-T6-AC240V LC4H-T6-AC240VS LC4H8-T6-AC24V LC4H-T6-AC24V LC4H-T6-AC24VS LC4H8-T6-DC24V LC4H-T6-DC24V LC4H-T6-DC24VS * A rubber gasket (ATC18002) and a mounting frame (AT8-DA4) are included. 115 LC4H/-L LC4H-L Counters UL File No.: E122222 C-UL File No.: E122222 Features 48 1.890 48 1.890 AEL11 Series (4-digit display) 64.5 2.539 mm inch 1. Low Price All this at an affordable price to provide you with unmatched cost performance. 2. Display is a bright reflective-type LCD. 3. Inherits all of the characteristics of the LC4H digital timer. * Seesaw switches ensure easy operation. * IP66 environmental protection. * Shortened body (pin type: 70.1 mm 2.760 inch, screw type: 64.5 mm 2.539 inch underhead). 4. Compliant with UL, c-UL and CE. AEL13 Series (6-digit display) Pin type Screw terminal type Product types Digit Count speed Output mode Output Operating voltage Power down insurance 100 to 240 V AC Relay (1c) 24 V AC/DC 12 to 24 V DC 4 100 to 240 V AC 30 Hz (cps)/ 5 KHz (Kcps) switchable * Maintain output/hold count * Maintain output/over count I * Maintain output/over count II * One shot/over count * One shot/recount I * One shot/recount II * One shot/hold count (7 modes) Transistor (1a) 24 V AC/DC 12 to 24 V DC Available 100 to 240 V AC Relay (1c) 24 V AC/DC 12 to 24 V DC 6 100 to 240 V AC Transistor (1a) 24 V AC/DC 12 to 24 V DC * A rubber gasket (ATC18002) and a mounting frame (AT8-DA4) are included. 116 Terminal type 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal 8 pins 11 pins Screw terminal Part number LC4HL8-R4-AC240V LC4HL-R4-AC240V LC4HL-R4-AC240VS LC4HL8-R4-AC24V LC4HL-R4-AC24V LC4HL-R4-AC24VS LC4HL8-R4-DC24V LC4HL-R4-DC24V LC4HL-R4-DC24VS LC4HL8-T4-AC240V LC4HL-T4-AC240V LC4HL-T4-AC240VS LC4HL8-T4-AC24V LC4HL-T4-AC24V LC4HL-T4-AC24VS LC4HL8-T4-DC24V LC4HL-T4-DC24V LC4HL-T4-DC24VS LC4HL8-R6-AC240V LC4HL-R6-AC240V LC4HL-R6-AC240VS LC4HL8-R6-AC24V LC4HL-R6-AC24V LC4HL-R6-AC24VS LC4HL8-R6-DC24V LC4HL-R6-DC24V LC4HL-R6-DC24VS LC4HL8-T6-AC240V LC4HL-T6-AC240V LC4HL-T6-AC240VS LC4HL8-T6-AC24V LC4HL-T6-AC24V LC4HL-T6-AC24VS LC4HL8-T6-DC24V LC4HL-T6-DC24V LC4HL-T6-DC24VS LC4H/-L Part names DIP switches * 4-digit display type COUNTER Counter display 2 3 4 5 6 7 8 ON 1 Controlled output indicator Set value display OP. RST LOCK Reset indicator Lock indicator RESET UP Up keys Reset switch LOCK LC4H Lock switch Down keys DOWN (Same for screw terminal type) DIP switches * 6-digit display type COUNTER Counter display 2 3 4 5 6 7 8 ON 1 Controlled output indicator Set value display Reset indicator OP. RST LOCK Lock indicator RESET Up keys Reset switch LOCK LC4H Lock switch (Same for screw terminal type) Specifications Ralay output type Transistor output type AC type DC type AC type DC type Rated operating voltage 12 to 24 V DC 100 to 240 V AC, 24 V AC 100 to 240 V AC, 24 V AC 12 to 24 V DC Rated frequency -- 50/60 Hz common 50/60 Hz common -- Rated power consumption Max. 3 W Max. 10 V A Max. 10 V A Max. 3 W Rated control capacity 5 A 250 V AC (resistive load) 100 mA 30 V DC Addition (UP)/Subtraction (DOWN)/Direction (DIR)/Individuality (IND)/Phase (PHASE) Input mode 5 modes selectable by DIP switch Max. counting speed 30 Hz/5 kHz (selectable by DIP switch) Counting input (Input 1, 2) Min. input signal width: 16.7 ms at 30 Hz/0.1 ms at 5 kHz, ON time: OFF time = 1:1 Reset input Min. input signal width: 1 ms, 20 ms (selected by DIP switch) Rating Lock input Min. input signal width: 20 ms Contact or Open collector input/Input impedance: 1 k or less, Input residual voltage: 2 V or less, Input signal Open impedance: 100 k or more, Max. energized voltage: 40 V DC Output mode HOLD-A/HOLD-B/HOLD-C/SHOT-A/SHOT-B/SHOT-C/SHOT-D (7 modes selectable by DIP switch) One shot output time Approx. 1 s Indication 7-segment LCD, Counter value (backlight red LED), Setting value (backlight yellow LED) 4-digit display type -999 to 9999 (-3 digits to +4 digits) (0 to 9999 for setting) Digit 6-digit display type -99999 to 999999 (-5 digits to 6 digits) (0 to 999999 for setting) Memory EEP-ROM (Overwriting times: 105 ope. or more) Contact arrangement 1 Form C 1 Form A (Open collector) 100 m (at 1 A 6 V DC) Contact Initial contact resistance -- Ag alloy/Au flush Contact material -- 2 x 107 ope. (Except for switch operation parts) Mechanical (contact) -- Life 105 ope. (At rated control voltage) Electrical (contact) 107 ope. (At rated control voltage) Allowable operating voltage range 85 to 110 % of rated operating voltage Between live and dead metal parts: 2,000 Vrms for 1 min (11-pin type) Break down voltage Between live and dead metal parts: 2,000 Vrms for 1 min (11-pin type) Between input and output: 2,000 Vrms for 1 min Between input and output: 2,000 V AC for 1 min (Initial value) Between open contacts: 1,000 Vrms for 1 min Electrical Between live and dead metal parts: Min. 100 M (11-pin type) Insulation resistance Between live and dead metal parts: Min. 100 M (11-pin type) Between input and output: Min. 100 M (At 500 V DC) (Initial Between input and output: Min. 100 M Between open contact: Min. 100 M value) Temperature rise Max. 65 C (under the flow of nominal operating current at nominal voltage) Functional 10 to 55 Hz (1 cycle/min), single amplitude: 0.35 mm (10 min on 3 axes) Vibration resistance Destructive 10 to 55 Hz (1 cycle/min), single amplitude: 0.75 mm (1 h on 3 axes) Mechanical Functional Min. 98 m 321.522 ft./s2 (4 times on 3 axes) Shock resistance Destructive Min. 294 m 964.567 ft./s2 (5 times on 3 axes) Ambient temperature -10 C to 55 C +14 F to +131 F Ambient humidity Max. 85 % RH (non-condensing) Operating conditions Air pressure 860 to 1,060 h Pa Ripple rate -- 20 % or less -- 20 % or less Connection 8-pin/11-pin/screw terminal Protective construction IP66 (front panel with a rubber gasket) Item 117 LC4H/-L Applicable standard Safety standard EN61812-1 Pollution Degree 2/Overvoltage Category II (EMI)EN61000-6-4 Radiation interference electric field strength Noise terminal voltage (EMS)EN61000-6-2 Static discharge immunity EN55011 Group1 ClassA EN55011 Group1 ClassA EN61000-4-2 RF electromagnetic field immunity EMC EFT/B immunity Surge immunity Conductivity noise immunity Power frequency magnetic field immunity Voltage dip/Instantaneous stop/Voltage fluctuation immunity 4 kV contact 8 kV air EN61000-4-3 10 V/m AM modulation (80 MHz to 1 GHz) 10 V/m pulse modulation (895 MHz to 905 MHz) EN61000-4-4 2 kV (power supply line) 1 kV (signal line) EN61000-4-5 1 kV (power line) EN61000-4-6 10 V/m AM modulation (0.15 MHz to 80 MHz) EN61000-4-8 30 A/m (50 Hz) EN61000-4-11 10 ms, 30% (rated voltage) 100 ms, 60% (rated voltage) 1,000 ms, 60% (rated voltage) 5,000 ms, 95% (rated voltage) mm inch General tolerance: 1.0 .039 Dimensions * 4-digit display type Screw terminal type: M3.5 (Flush mount) 5.5 .217 48 1.890 Pin type (Flush mount/Surface mount) 5.5 .217 64.5 2.539 70.1 2.760 55.6 2.189 COUNTER 48 1.890 OP. RST LOCK RESET (44.5 (1.752 (44.5 (1.752 UP LOCK LC4H 7.5 .295 DOWN 7.5 .295 * 6-digit display type Screw terminal type: M3.5 (Flush mount) 5.5 .216 48 1.890 Pin type (Flush mount/Surface mount) 5.5 .217 64.5 2.539 70.1 2.760 55.6 2.189 COUNTER 48 1.890 OP. RST LOCK (44.5 (1.752 (44.5 (1.752 RESET LOCK LC4H 118 7.5 .295 7.5 .295 LC4H/-L * Dimensions for flush mounting (with adapter installed) Screw terminal type: M3.5 Panel Rubber gasket ATC18002 (supplied) Pin type 50 1.969 UP RESET (44.5 (1.752 66 2.598 48 1.890 OP. RST LOCK 50 1.969 8-pin type (8p cap AD8-RC sold separately) 11-pin type (11p cap AT8-DP11 sold separately) 66 OP. RST LOCK Mounting frame for flush mount AT8-DA4 (supplied) COUNTER COUNTER 48 1.890 Panel Rubber gasket ATC18002 (supplied) Mounting frame for flush mount AT8-DA4 (supplied) RESET LOCK LOCK LC4H LC4H DOWN 1 .039 48 1.890 63.5 2.500 * Dimensions for front panel installations DIN rail terminal block 8-pin type: AT8-DF8K (sold separately) 11-pin type: AT8-DF11K (sold separately) 1 .039 48 1.890 * Installation panel cut-out dimensions 90 3.543 * For connected installations The standard panel cut-out dimensions are shown below. Use the mounting frame (AT8-DA4) and rubber gasket (ATC18002). 45-0.6 0 45-0.6 0 1.772-.024 0 80 min. 3.150 1.772-.024 0 A Device installation rail AT8-DLA1 (sold separately) -0.6 0 -.024 0 45 1.772 A = (48 x n - 2.5) 80 min. 3.150 95.5 (90.0) 3.760 (3.543) ( ) Dimensions for 8-pin type. -0.6 0 Note 1: The installation panel thickness should be between 1 and 5 mm .039 and .197 inch. Note 2: For connected installations, the waterproofing ability between the unit and installation panel is lost. Terminal layouts and Wiring diagrams * 8-pin type * 11-pin type Relay output type Input 2 Input 1 Reset 4 5 3 2 - ~ Transistor output type Input 2 Input 1 Reset 6 7 1 8 Operating voltage 4 5 3 2 + ~ - ~ NO 6 7 1 8 Operating voltage + ~ * Screw terminal type Relay output type Reset Input 1 Input 2 Lock NC 5 6 7 4 3 2 1 11 8 9 10 - Operating + voltage ~ ~ NO Transistor output type Reset Input 1 Input 2 Lock Relay output type Reset Input 1 Input 2 Lock 5 6 7 4 3 2 1 11 8 9 10 - Operating + voltage ~ Transistor output type Reset Input 1 Input 2 Lock NO 6 7 8 9 10 1 2 3 4 5 NC 6 7 8 9 10 1 2 3 4 5 ~ + Operating - voltage ~ ~ + Operating - voltage ~ ~ Note) For connecting the output leads of the transistor output type, refer to 5) Transistor output on page 141. 119 LC4H/-L Setting the operation mode and set value Setting procedure 1) Setting the operation mode (input mode and output mode) Set the input and output modes with the DIP switches on the side of the counter. DIP switches Table 1: Setting the output mode DIP switch OFF ON Item 1 2 3 4 5 6 7 8 Output mode Refer to table 1 Minimum reset input signal width Maximum counter speed Input mode 20 ms 30 Hz 1 ms 5 kHz Refer to table 2 DIP switch No. 1 2 3 ON ON ON OFF OFF OFF ON OFF OFF OFF ON OFF ON ON OFF OFF OFF ON ON OFF ON OFF ON ON Output mode SHOT-A SHOT-B SHOT-C SHOT-D HOLD-A HOLD-B HOLD-C -- (See note 1) Table 2: Setting the input mode DIP switch No. Input mode 6 7 8 ON ON ON Addition input OFF OFF OFF Subtraction input ON OFF OFF Directive input OFF ON OFF Independent input ON ON OFF Phase input OFF OFF ON -- (See note 1) ON OFF ON -- (See note 1) OFF ON ON -- (See note 1) Notes:1) The counter and set value displays will display DIP Err. Notes:2) Set the DIP switches before installing the counter on the panel. Notes:3) When the DIP SW setting is changed, turn off the power once. Notes:4) The DIP switches are set as ON before shipping. DIP switches (See note 2) 2 3 4 5 6 7 8 ON 1 (Same for 6-digit and screw terminal types) Setting procedure 2) Setting the set value Set the set value with the UP and DOWN keys on the front of the counter. Front display section * 4-digit display type COUNTER Q Counter display 1 W Set value display 3 2 E Controlled output indicator OP. 4 RST R Reset indicator LOCK T Lock indicator 5 6 UP RESET Y UP keys 8 7 LOCK Changes the corresponding 9 DOWN LC4H digit of the set value in the addition direction (upwards). * 6-digit display type Q Counter display W Set value display E Controlled output indicator R Reset indicator T Lock indicator COUNTER 1 3 4 2 OP. RST LOCK 5 6 RESET 7 LOCK 8 LC4H * Changing the set value 1. It is possible to change the set value with the up and down keys (4digit type only) even during counting. However, be aware of the following points. 1) If the set value is changed to less than the count value with counting set to the addition direction, counting will continue until it reaches full scale (9999 with the 4-digit type and 999999 with the 6-digit type), returns to zero, and then reaches the new set value. If the set value is changed to a value above the count value, counting will continue until the count value reaches the new set value. 120 2) Suppose that the counter is preset to count down. Whether a preset countdown value is smaller or larger than the count value, the counter counts down to "0(Zero)". 2. If the set value is changed to "0," the unit will not complete count-up. It starts counting up when the counting value comes to "0 (Zero)" again. 1) Up-count (addition) input when counting is set to the addition direction, counting will continue until full scale is reached (9999 with the 4-digit type and 999999 with the 6-digit type), return to zero, and then complete count-up. U DOWN keys Changes the corresponding digit of the set value in the subtraction direction (downwards). I RESET switch Resets the counting value and the output. O LOCK switch Locks the operation of all keys on the counter. Y UP keys Changes the corresponding digit of the set value in the addition direction (upwards). U RESET switch Resets the counting value and the output. I LOCK switch Locks the operation of all keys on the counter. 2) Down-count (subtraction) input when counting is set to the subtraction direction, counting will continue until full scale is reached (-999 with the 4-digit type and -99999 with the 6-digit type), and then the display will change to with the 4-digit type and with the 6-digit type. The counting value does not become "0" and so the counter does not count up. 3) For directive, independent, and phase input, when the counting value increases or decreases from the value "0" and then returns back to the value "0," count-up is completed. LC4H/-L Operation modes 1. Input mode For the input mode, you can choose one of the following five modes * Addition * Subtraction UP DOWN * Directive DIR * Independent IND * Phase Input mode PHASE Operation IN1 or IN2 works as an input block (gate) for the other input. *Minimum input signal width 30 Hz: 16.7 ms; 5 kHz: 0.1 ms * Example where IN1 is the count counting and IN2 is the input block (gate). IN1 H L A A A A Blocked Addition IN2 UP H L Counting (addition) 0 1 2 3 n-3 n-2 n-1 Counting (subtraction) n n-1 n-2 n-3 3 2 1 n 0 Reset Count-up completed * Example where IN2 is the counting input and IN1 is the input block (gate). IN1 IN2 Subtraction DOWN H L Blocked Blocked A A A A H L Counting (addition) Counting (subtraction) 0 1 2 3 4 n-1 n n-1 n-2 n-3 n-4 1 n 0 Count-up completed Reset * "A" must be more than the minimum input signal width. IN1 is the counting input and IN2 is the addition or subtraction directive input. IN2 adds at L level and subtracts at H level. Directive IN1 H L IN2 H L A A Addition DIR 0 Counting 1 2 3 4 A A Subtraction 3 2 1 0 Addition 1 2 3 4 Reset * "A" must be more than the minimum input signal width. IN1 is addition input and IN2 is subtraction input. IN1 H L Independent IN2 H L IND Counting 0 1 2 3 4 3 2 1 2 1 2 3 Reset * IN1 and IN2 are completely independent, so there is no restriction on signal timing. Addition when the IN1 phase advances beyond IN2, and subtraction when the IN2 phase advances beyond IN1. Phase IN1 H L IN2 H L B B Phase advance PHASE Counting 0 1 Phase retard 2 3 2 1 0 Reset * "B" must be more than the minimum input signal width. 121 LC4H/-L 2. Output mode For the output mode, you can choose one of the following seven modes * Maintain output/hold count HOLD-A * Maintain output/over count I HOLD-B * Maintain output/over count II HOLD-C * One shot/over count SHOT-A * One shot/recount I SHOT-B * One shot/recount II SHOT-C * One shot/hold count SHOT-D Output mode Maintain output Hold count HOLD-A Operation Output control is maintained after count-up completion and until resetting. During that time, the count display does not change from that at count-up completion. (Example when input mode is either addition or subtraction) n-3 n-2 n-1 n Counting (subtraction) 3 2 1 0 Counting able/unable Able Counting (addition) Unable ON Output control OFF * n: Set value Maintain output Over count I Output control is maintained after count-up completion and until resetting. However, counting is possible despite completion of count-up. Counting (addition) Counting (subtraction) n-2 n-1 n n+1 n+2 2 1 0 -1 -2 n n+1 n+2 0 -1 -2 Able Counting able/unable HOLD-B Output control ON OFF * n: Set value Maintain output Over count II HOLD-C Output control is maintained after count-up completion and until the next signal enters. However, counting is possible despite completion of countup. Counting (addition) Counting (subtraction) n-2 n-1 2 1 Able Counting able/unable ON Output control OFF OFF * n: Set value One shot Over count Output control is maintained after count-up completion for a fixed time (approx. 1 sec). Counting is possible despite completion of count-up. Counting (addition) Counting (subtraction) n-2 n-1 n n+1 n+2 2 1 0 -1 -2 Counting able/unable Able SHOT-A Output control ON OFF OFF Approx. 1s * n: Set value One shot Recount I SHOT-B One shot Recount II SHOT-C Output control is maintained after count-up completion for a fixed time (approx. 1 sec). Counting is possible despite completion of count-up. However, reset occurs simultaneous with completion of count-up. While output is being maintained, restarting of the count is not possible Output control is maintained after count-up completion for a fixed time (approx. 1 sec). Counting is possible despite completion of count-up. However, reset occurs simultaneous with output OFF. Counting (addition) Counting (subtraction) n-2 n-1 2 1 SHOT-D n n-1 n-2 ON Output control OFF OFF Approx. 1s * n: Set value Counting (addition) Counting (subtraction) n-1 n n+1 1 0 -1 0 1 n n-1 Reset (automatic) Able Counting able/unable ON OFF OFF Approx. 1s Counting (addition) Counting (subtraction) n-1 n 1 0 0 1 n n-1 Reset (automatic) Able Counting able/unable Unable Able ON Output control * n: Set value 122 2 Able Counting able/unable Output control One shot Hold count 1 Reset (automatic) * n: Set value Output control is maintained after count-up completion for a fixed time (approx. 1 sec). During that time, the count display does not change from that at count-up completion. Reset occurs simultaneous with output OFF. 0 OFF OFF Approx. 1s LC4H-S LC4H-S Counters ELECTRONIC COUNTER (with pre-scaling function) UL File No.: E122222 C-UL File No.: E122222 Features 4-digit type 6-digit type 11 pin type Screw terminal type RoHS Directive compatibility information http://www.nais-e.com/ 6. Basic insulation between the power supply and the input terminal (only for the sensor type model with power supply) There is no need for caution when connecting between terminals. 7. Conforms to IP66's Weather Resistant Standards The water-proof panel keeps out water and dirt for reliable operation even in poor environments. 8. 4-digit or 6-digit display Two sizes of displays are offered for you to choose the one that suits your needs. 9. Screw terminal and Pin Type are Both Standard Options The two terminal types are standard options to support either front panel installation or embedded installation. 10. Compliant with UL, c-UL and CE. 11. Low Price All this at an affordable price to provide you with unmatched cost performance. 1. Bright and Easy-to-Read Display A brand new bright 2-color backlight LCD display. The easy-to-read screen in any location makes checking and setting procedures a cinch. 2. Easy to use, simple operation, simple settings * Operation modes (input/output modes) can be set easily, using DIP switches on the side panel. * Values can be set easily, using key switches on the front panel. 3. Pre-scaling function provided A pre-scaling function enables conversion of lengths and volumes to any desired values, and displays the results. 4. Built-in power supply for highcapacitance sensor An internal power supply drives a 12 VDC, 100 mA high-capacitance sensor. (AC power supply types only) Photoelectric switches, proximity switches and encoders can be directly connected. 5. Dual-path AC sensor can be connected. Product types Digit Count speed Operation mode Output Operation voltage 100 to 240 V AC Power for sensor 12 V DC 100mA Relay 12 to 24 V DC /24 V AC 4 30 Hz/5 KHz switchable * Maintain output/hold count * Maintain output/over count I * Maintain output/over count II * One shot/over count * One shot/recount I * One shot/recount II * One shot/hold count (7 modes) Transistor None 12 to 24 V DC /24 V AC 100 to 24 V AC None 12 V DC 100mA Relay 12 to 24 V DC /24 V AC 6 Transistor 12 to 24 V DC /24 V AC None None Terminal 11 pins Screw terminal 11 pins Screw terminal 11 pins Screw terminal 11 pins Screw terminal 11 pins Screw terminal 11 pins Screw terminal Part No. LC4H-PS-R4-AC240V LC4H-PS-R4-AC240VS LC4H-S-R4-24V LC4H-S-R4-24VS LC4H-S-T4-24V LC4H-S-T4-24VS LC4H-PS-R6-AC240V LC4H-PS-R6-AC240VS LC4H-S-R6-24V LC4H-S-R6-24VS LC4H-S-T6-24V LC4H-S-T6-24VS Notes) 1. Rubber packing (ATC18002) and an mounting frame (AT8-DA4) are included. 2. 100 to 240 VAC Tr outputs (11-pin terminal, screw-tightening terminal) types are also supported. 123 LC4H-S Part names * 4-digit display type DIP switches COUNTER Counter display 2 3 4 5 6 7 8 ON 1 Controlled output indicator Set value display Reset indicator OP. RST LOCK Lock indicator RESET UP Up keys Reset switch SET/ LOCK Set/lock switch LC4H Down keys DOWN (Same for screw terminal type) * 6-digit display type DIP switches COUNTER Counter display 2 3 4 5 6 7 8 ON 1 Controlled output indicator Set value display Reset indicator OP. RST LOCK Lock indicator RESET Reset switch Set/lock switch Up keys SET/ LOCK LC4H (Same for screw terminal type) Specifications Item Rated operating voltage Rated frequency Rated power consumption Rated control capacity Input mode Max. counting speed Counting input (input 1, input 2) Reset input Lock input Rating Input signal Output mode One shot output time Indication Digit Contact Life Decimal point Pre-scaling Memory Power for senser Contact arrangement Initial contact resistance Contact material Mechanical (contact) Electrical (contact) Operating voltage range Initial withstand voltage Electrical Mechanical Operating conditions Initial insulation resistance (At 500 V DC) Temperature rise Functional Vibration resistance Destructive Functional Shock resistance Destructive Ambient temperature Ambient humidity Air pressure Connection Protective construction 124 Ralay output type AC type 100 to 240 V DC/AC type 12 to 24 V DC/24 V AC 50/60 Hz common Transistor output type DC/AC type 12 to 24 V DC/24 V AC Max. 3 W Max. 10 V A 100 mA, 30 V DC 5 A 250 V AC (resistive load) Addition (UP)/Subtraction (DOWN)/Direction (DIR)/Individuality (IND)/Phase (PHASE) 5 modes selectable by DIP switches 30 Hz, 5 kHz (selectable by DIP switches) 16.7 ms at 30 Hz/0.1 ms at 5 kHz ON time: OFF time = 1:1 Min. input signal width: 1 ms, 20 ms (selected by DIP switches) Min. input signal width: 20 ms Contact, Open collector input/DC two-wire system sensor Input impedance: 1 k or less, Input residual voltage: 2 V or less, Open impedance: 100 k or less, Max. energized voltage: 40 V DC HOLD-A, HOLD-B, HOLD-C, SHOT-A, SHOT-B, SHOT-C, SHOT-D, 7 modes selectable by DIP switches 1 s, 0.5s, 0.2s, 0.1s, 0.05, 0.01s 7-segment LCD, Counter value (backlight red LED), Setting value (backlight yellow LED) 4-digit display type -999 to 9999 (0 to 9999 for setting) 6-digit display type -99999 to 999999 (0 to 999999 for setting) Can be set to three digits 0.001 to 9.999 (4-digit type), 0.001 to 99.999 (6-digit type) EEP-ROM (Overwriting times: 105 ope. or more) 12 V DC (10%) 100 mA Max. -- 1 Form A (Open collector) 1 Form C 100 m (at 1 A 6 V DC) -- -- Ag alloy/Au flush 2 x 107 ope. (Except for switch operation parts) -- 105 ope. (At rated control voltage) 107 ope. (At rated control voltage) 85 to 264 V AC 10.8 to 26.4 V DC, 20.4 to 26.4 V AC Between live and dead metal parts: 2,000 Vrms for 1 min (pin type) Between input and output: 2,000 Vrms for 1 min Between live and dead metal parts: Min. 100 M (pin type) Between input and output: Min. 100 M Max. 65 C (under the flow of nominal operating current at nominal voltage) 10 to 55 Hz (1 cycle/min), single amplitude: 0.35 mm (10 min on 3 axes) 10 to 55 Hz (1 cycle/min), single amplitude: 0.75 mm (1 h on 3 axes) Min. 98 m/s2 (4 times on 3 axes) Min. 294 m/s2 (5 times on 3 axes) -10 C to 55 C +14 F to +131 F Max. 85 % RH (non-condensing) 860 to 1,060 h Pa 11-pin/screw terminal IP66 (front panel with a rubber gasket) LC4H-S Applicable standard Safety standard EN61812-1 Pollution Degree 2/Overvoltage Category II (EMI)EN61000-6-4 Radiation interference electric field strength Noise terminal voltage (EMS)EN61000-6-2 Static discharge immunity EN55011 Group1 ClassA EN55011 Group1 ClassA EN61000-4-2 4 kV contact 8 kV air EN61000-4-3 10 V/m AM modulation (80 MHz to 1 GHz) 10 V/m pulse modulation (895 MHz to 905 MHz) EN61000-4-4 2 kV (power supply line) 1 kV (signal line) EN61000-4-5 1 kV (power line) EN61000-4-6 10 V/m AM modulation (0.15 MHz to 80 MHz) EN61000-4-8 30 A/m (50 Hz) EN61000-4-11 10 ms, 30% (rated voltage) 100 ms, 60% (rated voltage) 1,000 ms, 60% (rated voltage) 5,000 ms, 95% (rated voltage) RF electromagnetic field immunity EMC EFT/B immunity Surge immunity Conductivity noise immunity Power frequency magnetic field immunity Voltage dip/Instantaneous stop/Voltage fluctuation immunity mm inch General tolerance: 1.0 .039 Dimensions Pin type (Flush mount/Surface mount) 5.5 .217 (48 (1.890 55.6 2.189 70.1 2.760 Screw terminal type: M3.5 (Flush mount) 14.5 .571 5.5 .217 64.5 2.539 COUNTER ((44.5) ((1.752) OP. (48 (1.890 ((44.5) ((1.752) s RESET UP SET/LOCK LC4H DOWN 7.5 .295 73* 2.874* 87.5* 2.445* 81.9* 3.224* * With power supply for sensor * With power supply for sensor (* 6-digit display type has the same dimensions.) * Dimensions for flush mounting (with adapter installed) Screw terminal type Rubber gasket ATC18002 (supplied) Pin type Mounting frame for flush mount AT8-DA4 (supplied) Panel Rubber gasket ATC18002 (supplied) UP 66 2.598 OP. RST LOCK RESET SET/LOCK SET/LOCK LC4H DOWN 48 1.890 1 .039 63.5 2.500 48 1.890 80.9 3.185 * With power supply for sensor * Dimensions for front panel installations * Installation panel cut-out dimensions 90 3.543 1 104.5 4.114 * With power supply for sensor * For connected installations DIN rail terminal block 11-pin type: AT8-DF11K (sold separately) 95.5 (112.9) 3.760 (4.445) * With power supply for sensor 45-0.6 0 1.772-.024 0 Device installation rail ATA48011 (sold separately) 45-0.6 0 1.772-.024 0 Min. 80 3.150 45-0.6 0 1.772-.024 0 The standard panel cut-out dimensions are shown below. Use the mounting frame (AT8-DA4) and rubber gasket (ATC18002). Min. 80 3.150 LC4H 50 1.969 48 1.890 (44.5 (1.752 66 2.598 50 1.969 48 1.890 RESET 11 pin type 11 pins cap: ATA4861 (sold separately) COUNTER COUNTER OP. RST LOCK Mounting frame for flush mount AT8-DA4 (supplied) Panel A When n units are attached in a continuous series, the dimension of (A) is: -0.6 A = (48 x n - 2.5) 0 Note 1: The installation panel thickness should be between 1 and 5 mm .039 and .197 inch. Note 2: For connected installations, the waterproofing ability between the unit and installation panel is lost. 125 LC4H-S Terminal layouts and Wiring diagrams * Pin type Relay output type Reset Input 1 Input 2 Lock - ~ Transistor output type Reset Input 1 Input 2 Lock NC 5 6 7 4 3 2 1 11 NO 8 9 10 Operating voltage + - ~ ~ Reset Input 1 Input 2 Lock 5 6 7 4 3 2 1 11 8 9 10 Operating voltage + ~ * Screw terminal type Relay output type Transistor output type Reset Input 1 Input 2 Lock Reset Input 1 Input 2 Lock NO 6 7 8 9 0V DC 12V 100mA Max. 7 8 9 4 3 2 1 11 NO 8 9 10 + ~ Operating voltage 3 - ~ 4 1 11 8 9 10 voltage * With power supply for sensor Relay output type Transistor output type 10 NO 6 7 8 9 Reset Input 1 Input 2 Lock 10 6 7 8 9 10 2 3 4 5 NC 1 5 + ~ Operating voltage 2 3 - ~ 4 5 DC 12V 100mA Max. 11 1 0V 2 ~Operating~ voltage Note) For connecting the output leads of the transistor output type, refer to 5) Transistor output on page 141. 126 5 6 7 4 3 2 ~Operating~ voltage 0V 2 0V DC 12V 100mA Max. ~Operating~ NC 1 Reset Input 1 Input 2 Lock NC 5 6 7 Reset Input 1 Input 2 Lock 6 10 * With power supply for sensor Relay output type Transistor output type 3 4 5 DC 12V 100mA Max. 11 1 ~Operating ~ voltage LC4H-S Setting the operation mode and counter Setting procedure 1) Setting the operation mode (input mode and output mode) Set the input and output modes with the DIP switches on the side of the counter. DIP switches Table 1: Setting the output mode DIP switch OFF ON Item 1 2 3 4 5 6 7 8 Output mode DIP switch No. 1 2 3 ON ON ON OFF OFF OFF ON OFF OFF OFF ON OFF ON ON OFF OFF OFF ON ON OFF ON OFF ON ON Refer to table 1 Minimum reset input signal width Maximum counter setting Input mode 20 ms 30 Hz 1 ms 5 kHz Refer to table 2 Output mode SHOT-A SHOT-B SHOT-C SHOT-D HOLD-A HOLD-B HOLD-C -- (See note 1) Table 2: Setting the input mode DIP switch No. Input mode 6 7 8 ON ON ON Addition input OFF OFF OFF Subtraction input ON OFF OFF Directive input OFF ON OFF Independent input ON ON OFF Phase input OFF OFF ON -- (See note 1) ON OFF ON -- (See note 1) OFF ON ON -- (See note 1) Notes:1) The counter and set value displays will display DIP Err. Notes:2) Set the DIP switches before installing the counter on the panel. Notes:3) When the DIP SW setting is changed, turn off the power once. Notes:4) The DIP switches are set as ON before shipping. DIP switches (See note 2) 2 3 4 5 6 7 8 ON 1 (Same for 6-digit, screw-down terminal type) Setting procedure 2) Setting the set value Set the set value with the UP and DOWN keys on the front of the counter. Front display section * 4-digit display type Q Counter display W Set value display E Controlled output indicator R Reset indicator T Lock indicator Y UP keys Changes the corresponding digit of the set value in the addition direction (upwards) * 6-digit display type Q Counter display W Set value display E Controlled output indicator R Reset indicator T Lock indicator COUNTER 1 3 4 2 OP. RST LOCK 5 RESET 6 UP 8 7 SET/LOCK 9 LC4H DOWN COUNTER 1 3 4 2 OP. RST LOCK 5 6 RESET 7 SET/LOCK 8 LC4H U DOWN keys Changes the corresponding digit of the set value in the subtraction direction (downwards) I RESET switch Resets the counting value and the output O SET/LOCK switch This is used to handle pre-scaling values, one-shot times, decimal point position settings, and key lock operations (to disable Up key, Down key, and Reset key operations). Y UP keys Changes the corresponding digit of the set value in the addition direction (upwards) U RESET switch Resets the counting value and the output I SET/LOCK switch This is used to handle pre-scaling values, one-shot times, decimal point position settings, and key lock operations (to disable Up key, Down key, and Reset key operations). Setting procedure 3) Setting the input mode The input mode is set using the key switch in the [Display] section on the front of the counter. * Decimal point position setting mode Q Holding down the [SET/LOCK] key, press the key for the second digit to access the decimal point position setting mode. Example) 6-digit type Decimal point position setting mode display (Example shows default value displayed) W When the setting mode has been accessed, release the [SET/LOCK] key. 127 LC4H-S E The decimal point is set using the [UP] and [DOWN] keys to specify the 2nd, 3rd, and 4th digits (this applies only to 4-digit models).(The 1st digit is set using the [UP] key or [DOWN] key in settings where there is no decimal point (this applies only to 4-digit models).) Example) 6-digit type Example shows 2nd digit displayed using [UP] key R Press the [RESET] key to set the displayed decimal point position and return to normal operation. * Setting the pre-scaling value Q Holding down the [SET/LOCK] key, press the key for the first digit to access the pre-scaling value setting mode. Example) 4-digit type Example) 6-digit type Pre-scaling value setting mode displayed (Example shows default values displayed) W When the setting mode has been accessed, release the [SET/LOCK] key. E Use the [UP] or [DOWN] key to set the pre-scaling value (this applies only to 4-digit models). Select either: 0.001 to 9.999 (4-digit) or 0.001 to 99.999 (6-digit) R Press the [RESET] key to set the displayed pre-scaling value and return to normal operation. * Setting the one-shot output time Q Holding down the [SET/LOCK] key, press the key for the third digit to access the one-shot output time setting mode. Example) 6-digit type One-shot output time setting mode displayed (Example shows default value displayed) W When the setting mode has been accessed, release the [SET/LOCK] key. E Each time the 1st-digit [UP] key is pressed, the one-shot output time changes in the following sequence, moving to the right: 1 s 0.5 s 0.2 s 0.1 s 0.05 s 0.01 s (With a 4-digit type, the [DOWN] key can also be used to move to the left.) R Press the [RESET] key to set the displayed one-shot output time and return to normal operation. Changing the set value 1. It is possible to change the set value with the up and down keys (4digit type only) even during counting. However, be aware of the following points. 1) If the set value is changed to less than the count value with counting set to the addition direction, counting will continue until it reaches full scale (9999 with the 4-digit type and 999999 with the 6-digit type), returns to zero, and then reaches the new set value. If the set value is changed to a value above the count value, counting will continue until the count value reaches the new set value. 2) Suppose that thew counter is preset to count down. Whether a preset countdown value is smaller or larger than the count value, the counter counts down to "0 (zero)". 2. If the set value is changed to "0," the unit will not complete count-up. It starts counting up when the counting value comes to "0 (zero)" again. 1) Up-count (addition) input When counting is set to the addition direction, counting will continue until full scale is reached (9999 with the 4-digit type and 999999 with the 6-digit type), return to zero, and then complete countup. 2) Down-count (subtraction) input When counting is set to the subtraction direction, counting will continue until full scale is reached (-999 with the 4-digit type and -99999 with the 6-digit type), and then the display will change to with the 4-digit type and with the 6-digit type. The counting value does not become "0 (zero)" and so the counter does not count up. 3) Directive, independent, and phase inputs The counting value is counted up or down to any number other than "0" once. When it comes to "0 (zero)" again, the counter starts counting up. CAUTIONS FOR USE For more information regarding the cautions for use of LC4H series counter, refer to page 140 "PRECAUTIONS IN USING THE LC4H SERIES". 128 LC4H-S Operation mode 1. Input mode For the input mode, you can choose one of the following five modes * Addition * Subtraction UP DOWN * Directive DIR * Independent IND * Phase Input mode PHASE Operation IN1 or IN2 works as an input block (gate) for the other input. *Minimum input signal width 30 Hz: 16.7 ms; 5 kHz: 0.1 ms * Example where IN1 is the counting input and IN2 is the input block (gate). IN1 H L A A A A Blocked Addition IN2 UP H L Counting (addition) 0 1 2 3 n-3 n-2 n-1 Counting (subtraction) n n-1 n-2 n-3 3 2 1 n 0 Reset Count-up completed * Example where IN2 is the counting input and IN1 is the input block (gate). IN1 IN2 Subtraction DOWN H L Blocked Blocked A A A A H L Counting (addition) Counting (subtraction) 0 1 2 3 4 n-1 n n-1 n-2 n-3 n-4 1 n 0 Count-up completed Reset * "A" must be more than the minimum input signal width. IN1 is the counting input and IN2 is the addition or subtraction directive input. IN2 adds at L level and subtracts at H level. Directive IN1 H L IN2 H L A A Addition DIR 0 Counting 1 2 3 4 A A Subtraction 3 2 1 0 Addition 1 2 3 4 Reset * "A" must be more than the minimum input signal width. IN1 is addition input and IN2 is subtraction input. IN1 H L Independent IN2 H L IND Counting 0 1 2 3 4 3 2 1 2 1 2 3 Reset * IN1 and IN2 are completely independent, so there is no restriction on signal timing. Addition when the IN1 phase advances beyond IN2, and subtraction when the IN2 phase advances beyond IN1. Phase IN1 H L IN2 H L B B Phase advance PHASE Counting 0 1 Phase retard 2 3 2 1 0 Reset * "B" must be more than the minimum input signal width. 129 LC4H-S 2. Output mode For the output mode, you can choose one of the following seven modes * Maintain output/hold count HOLD-A * Maintain output/over count I HOLD-B * Maintain output/over count II HOLD-C * One shot/over count SHOT-A * One shot/recount I SHOT-B * One shot/recount II SHOT-C * One shot/hold count SHOT-D Output mode Maintain output Hold count HOLD-A Operation Output control is maintained after count-up completion and until resetting. During that time, the count display does not change from that at count-up completion. (Example when input mode is either addition or subtraction) n-3 n-2 n-1 n Counting (subtraction) 3 2 1 0 Counting able/unable Able Counting (addition) Unable ON Output control OFF * n: Set value Maintain output Over count I Output control is maintained after count-up completion and until resetting. However, counting is possible despite completion of count-up. Counting (addition) Counting (subtraction) n-2 n-1 n n+1 n+2 2 1 0 -1 -2 n n+1 n+2 0 -1 -2 Able Counting able/unable HOLD-B Output control ON OFF * n: Set value Maintain output Over count II HOLD-C Output control is maintained after count-up completion and until the next signal enters. However, counting is possible despite completion of countup. Counting (addition) Counting (subtraction) n-2 n-1 2 1 Able Counting able/unable ON Output control OFF OFF * n: Set value One shot Over count Output control is maintained after count-up completion for one shot output time. Counting is possible despite completion of count-up. Counting (addition) Counting (subtraction) n-2 n-1 n n+1 n+2 2 1 0 -1 -2 Counting able/unable Able SHOT-A Output control ON OFF OFF Approx. 1s * n: Set value One shot Recount I SHOT-B One shot Recount II SHOT-C Output control is maintained after count-up completion for one shot output time. Counting is possible despite completion of count-up. However, reset occurs simultaneous with completion of count-up. While output is being maintained, restarting of the count is not possible Output control is maintained after count-up completion for one shot output time. Counting is possible despite completion of count-up. However, reset occurs simultaneous with output OFF. Counting (addition) Counting (subtraction) n-2 n-1 2 1 0 1 2 n n-1 n-2 Reset (automatic) Able Counting able/unable ON Output control OFF OFF Approx. 1s * n: Set value Counting (addition) Counting (subtraction) n-1 n n+1 1 0 -1 0 1 n n-1 Reset (automatic) Able Counting able/unable ON Output control OFF OFF Approx. 1s * n: Set value One shot Hold count SHOT-D Output control is maintained after count-up completion for one shot output time. During that time, the count display does not change from that at count-up completion. Reset occurs simultaneous with output OFF. Counting (addition) Counting (subtraction) n 1 0 0 1 n n-1 Reset (automatic) Able Counting able/unable Unable Able ON Output control * n: Set value 130 n-1 OFF OFF Approx. 1s LC4H-S Input connections * Signal input type 1) Open collector 2) For voltage output (PC, sensor etc.) + 12 V DC (Photoelectric sensor, proximity sensor, etc.) Output + 12 V DC Output 0V 0V - - 3 11-pin type Screw-down terminal type 4 6 0V 5 7 6 8 9 7 1 11-pin type Screw-down terminal type 10 11 Lock Input Input Reset 12 V DC 1 input output input 2 3) Contact input 3 6 0V 4 5 6 7 7 8 9 10 11 1 Lock Input Input Reset 12 V DC 1 input output input 2 4) For a rotary encoder Relay, switches etc. 12 V DC A phase 0V 3 11-pin type Screw-down terminal type 6 0V 4 5 6 7 7 8 9 10 Lock Input Input Reset 1 input input 2 B phase 11-pin type 3 5 6 1 Screw-down terminal type 6 8 9 11 0V Input Input 12 V DC 2 1 output Input 1, input 2, and reset input specifications Lock input specifications * Impedance during short-circuit: 1 k max. (At 0 , the outflow current is approximately 12 mA.) * Residual voltage during short-circuit: 2 V max. * Impedance when released: 100 k min. * Max. applied voltage: 40 VDC max. * Impedance during short-circuit: 1 k max. (At 0 , the outflow current is approximately 1.5 mA.) * Residual voltage during short-circuit: 2 V max. * Impedance when released: 100 k min. * Max. applied voltage: 40 DVC max. * The contact relay should be one which can open/close 5 V, 1.5 mA. * There is no 12 V DC with 12 - 24 V DC/24 V AC types. What is the prescale function? 5) For a dual-line sensor The prescale function converts the count into an actual value (amount) and displays it. Example For a device that outputs 500 pulses when 1 m has been fed: 1. Set decimal position to the last 3rd place. 2. Set the prescale value to 0.002 (1/500). + 0V - 11-pin type Screw-down terminal type 3 6 0V 5 6 7 8 9 10 1m 3.281ft Input Input Reset 2 1 input COUNTER Dual-line sensor specifications 1 pulse * Leakage current: 1.5 mA max. RESET UP SET/LOCK LC4H * Breaker capacitance: 5 mA min. DOWN * Residual voltage: 3.0 V max. * Usable voltage: Runs on 10 VDC Prescale value: 0.002 Encoder COUNTER 500 pulses * If a dual-line sensor is connected to a 12 - 24 VDC/24 VAC type, 24 VDC (21.6 to 26.4 VDC) and 24 VAC (21.6 to 26.4 VAC) should be applied to the power supply voltage of the counter. Can be set to easy-to-understand unit. RESET UP SET/LOCK LC4H DOWN 131 LC4H-W Counters DIN 48 SIZE LCD ELECTRONIC COUNTER UL File No.: E122222 C-UL File No.: E122222 Features 1. Two-stage presetting (upper and lower limits) Count SET2 48 1.890 SET1 Output 1 Output 2 64.5 2.539 48 1.890 mm inch 11-pin type Screw terminal type RoHS Directive compatibility information http://www.nais-e.com/ 2. Bright and Easy-to-Read Display A brand new bright 2-color backlight LCD display. The easy-to-read screen in any location makes checking and setting procedures a cinch. 3. Simple Operation Seesaw buttons make operating the unit even easier than before. 4. Short Body of only 64.5 mm 2.539 inch (screw type) or 70.1 mm 2.760 inch (pin type) With a short body, it easily installs in even narrow control panels. 5. Conforms to IP66's Weather Resistant Standards The water-proof panel keeps out water and dirt for reliable operation even in poor environments. 6. Screw terminal and Pin Type are Both Standard Options The two terminal types are standard options to support either front panel installation or embedded installation. 7. Changeable Panel Cover Also offers a black panel cover to meet your design considerations. 8. Compliant with UL, c-UL and CE. 9. Low Price All this at an affordable price to provide you with unmatched cost performance. Product types Digit Output mode Count speed Output 1 Output 2 Operating voltage Output Power down insurance 11 pins 100 to 240 V AC 6 30 Hz (cps)/ 5 KHz (Kcps) switchable * Maintain output/over count I * Maintain output/over count II * Maintain output/over count III * One shot/over count (4 modes) * Maintain output/hold count * Maintain output/over count I * Maintain output/over count II * Maintain output/over count III * One shot/over count * One shot/recount I * One shot/recount II * One shot/hold count (8 modes) Relay (1a+1a) Part number LC4H-W-R6-AC240V Screw terminal LC4H-W-R6-AC240VS 11 pins 24V AC LC4H-W-R6-AC24V Screw terminal LC4H-W-R6-AC24VS 11 pins 12 to 24 V DC Available 100 to 240 V AC Transistor (1a+1a) Terminal type 11 pins LC4H-W-T6-AC240V Screw terminal LC4H-W-T6-AC240VS 11 pins 24V AC LC4H-W-R6-DC24V Screw terminal LC4H-W-R6-DC24VS LC4H-W-T6-AC24V Screw terminal LC4H-W-T6-AC24VS 12 to 24 V DC 11 pins LC4H-W-T6-DC24V Screw terminal LC4H-W-T6-DC24VS * A rubber gasket (ATC18002) and a mounting frame (AT8-DA4) are included. Part names Counter display Setting value 1/2 selector COUNTER Set value display Controlled output indicator OP 1 Lock indicator Up keys 1 2 2 LOCK RESET Reset switch Set/lock switch 132 UP keys : Used to reset counting and its output. SET/LOCK key : Used to select between the Setting 1 display SET/LOCK LC4H-W Sixth digit RESET key : Used to set the corresponding digits for the count-up mode. First digit and Setting 2 display and to lock the keys (UP and RESET keys not responsive to touch). Used also to set and confirm the input mode. LC4H-W Specifications Ralay output type Item DC type AC type DC type 12 to 24 V DC 100 to 240 V AC 24 V AC 12 to 24 V DC 50/60 Hz common -- 50/60 Hz common -- Max. 10 V A Max. 3 W Max. 10 V A Max. 3 W 100 to 240 V AC 24 V AC Rated operating voltage Rated frequency Rated power consumption Rated control capacity 3 A, 250 V AC (resistive load) Input mode 100 mA, 30 V DC Addition (UP)/Subtraction (DOWN)/Direction (DIR)/Individuality (IND)/Phase (PHASE) (5 modes selectable by DIP switch) Counting speed 30 Hz(cps)/5 KHz(cps) (selectable by DIP switch) Counting input (Input 1, 2) Rating Transistor output type AC type Min. input signal width: 16.7 ms at 30 Hz(cps)/0.1 ms at 5 KHz(cps) ON time: OFF time = 1:1 Reset input Min. input signal width: 1 ms, 20 ms (selected by DIP switch) Input signal Contact or Open collector input/Input impedance: 1 k or less, Input residual voltage: 2 V or less, Open impedance: 100 k or more, Max. energized voltage: 40 V DC Output 1. HOLD-B, C, D SHOT-A (4 modes) Output 2. HOLD-A, B, C SHOT-A, B, C, D (8 modes) (selectable by DIP switch) Output mode Approx. 1 s One shot output time Indication 7-segment LCD, Counter value (backlight red LED), Setting value (backlight yellow LED) Digit -99999 to 999999 (-5 digits to 6 digits) (0 to 999999 for setting) Memory EEP-ROM (Overwriting times: 105 ope. or more) Contact arrangement Contact 1 Form A + 1 Form A Contact resistance (Intial value) -- Ag alloy/Au flush -- Contact material Life Min. 2 x 107 ope. -- Min. 105 ope. (At rated control voltage) Min. 107 ope. (At rated control voltage) Mechanical (contact) Electrical (contact) Allowable operating voltage range Electrical 85 to 110 % of rated operating voltage Break down voltage (Initial value) Between live and dead metal parts: 2,000 Vrms for 1 min (pin type) Between input and output: 2,000 Vrms for 1 min Between open contacts: 1,000 Vrms for 1 min Between live and dead metal parts: 2,000 Vrms for 1 min Between input and output: 2,000 V AC for 1 min Insulation resistance (At 500 V DC) (Initial value) Between live and dead metal parts: Min. 100 M (pin type) Between input and output: Min. 100 M Between open contact: Min. 100 M Between live and dead metal parts: Min. 100 M (pin type) Between input and output: Min. 100 M Max. 65C (under the flow of nominal operating current at nominal voltage) -- Temperature rise Vibration resistance Functional 10 to 55 Hz (1 cycle/min), single amplitude: 0.35 mm (10 min on 3 axes) Destructive 10 to 55 Hz (1 cycle/min), single amplitude: 0.75 mm (1 h on 3 axes) Shock resistance Functional Min. 98 m/s2 (4 times on 3 axes) Destructive Min. 294 m/s2 (5 times on 3 axes) Mechanical Operating conditions 1 Form A + 1 Form A (Open collector) 100 m (at 1 A 6 V DC) Ambient temperature -10C to 55C +14F to +131F Ambient humidity Max. 85 % RH (non-condensing) Air pressure 860 to 1,060 h Pa Ripple rate -- Connection 20 % or less -- 20 % or less 11-pin/screw terminal Protective construction IP66 (front panel with a rubber gasket) Applicable standard Safety standard EN61812-1 (EMI)EN61000-6-4 Radiation interference electric field strength Noise terminal voltage (EMS)EN61000-6-2 Static discharge immunity RF electromagnetic field immunity EMC EFT/B immunity Surge immunity Conductivity noise immunity Power frequency magnetic field immunity Voltage dip/Instantaneous stop/Voltage fluctuation immunity Pollution Degree 2/Overvoltage Category II EN55011 Group1 ClassA EN55011 Group1 ClassA EN61000-4-2 4 kV contact 8 kV air EN61000-4-3 10 V/m AM modulation (80 MHz to 1 GHz) 10 V/m pulse modulation (895 MHz to 905 MHz) EN61000-4-4 2 kV (power supply line) 1 kV (signal line) EN61000-4-5 1 kV (power line) EN61000-4-6 10 V/m AM modulation (0.15 MHz to 80 MHz) EN61000-4-8 30 A/m (50 Hz) EN61000-4-11 10 ms, 30% (rated voltage) 100 ms, 60% (rated voltage) 1,000 ms, 60% (rated voltage) 5,000 ms, 95% (rated voltage) 133 LC4H-W mm inch General tolerance: 1.0 .039 Dimensions * LC4H-W electrical counter Pin type (Flush mount/Surface mount) Screw terminal type (Flush mount): M3.5 5.5 .217 48 1.890 70.1 2.760 5.5 .217 64.5 2.539 55.6 2.180 COUNTER OP. 1 1 2 2 LOCK 44.5 1.752 44.5 1.752 RESET SET/LOCK LC4H-W 7.5 .295 7.5 .295 * Dimensions for flush mounting (with adapter installed) Screw terminal type Panel Rubber gasket ATC18002 (supplied) Pin type Mounting frame for flush mount AT8-DA4 (supplied) COUNTER Mounting frame for flush mount AT8-DA4 (supplied) 11P cap AT8-DP11 sold separately COUNTER OP. 1 48 1.890 Panel Rubber gasket ATC18002 (supplied) 50 1.969 1 2 2 LOCK 44.5 1.752 66 2.598 OP. 1 48 1.890 RESET 50 1.969 1 2 2 LOCK 66 2.598 RESET SET/LOCK SET/LOCK LC4H-W LC4H-W 1 .039 48 1.890 63.5 2.500 48 1.890 * Dimensions for front panel installations * Installation panel cut-out dimensions The standard panel cut-out dimensions are shown below. Use the mounting frame (AT8-DA4) and rubber gasket (ATC18002). 80 min. DIN rail terminal block AT8-DF11K (sold separately) 3.150 1 .039 90 3.543 * For connected installations +0.6 45 0 +.024 1.772 0 +0.6 45 0 +.024 1.772 0 A Device installation rail AT8-DLA1 (sold separately) +0.6 45 0 +.024 1.772 0 When n units are attached in a continuous series, the dimension of (A) is: A = (48 x n - 2.5) 80 min. 3.150 95.5 3.760 Terminal layouts and Wiring diagrams * Pin type Relay output type Reset Input 1 Input 2 NO Transistor output type 5 6 7 4 8 9 3 10 2 1 11 - NO + Operating voltage ~ Reset Input 1 Input 2 ~ Transistor output type Reset Input 1 Input 2 Reset Input 1 Input 2 NO NO + + Operating voltage ~ * Screw terminal type Relay output type ~ 5 6 7 4 8 9 3 10 2 1 11 - ~ 6 7 8 9 10 6 7 8 9 10 1 2 3 4 5 1 2 3 4 5 Operating voltage - ~ + ~ Operating voltage - ~ Note) For connecting the output leads of the transistor output type, refer to 5) Transistor output on page 141. 134 +0.6 0 Note 1): The installation panel thickness should be between 1 and 5 mm .039 and .197 inch. Note 2): For connected installations, the waterproofing ability between the unit and installation panel is lost. LC4H-W Setting the operation mode and counter Setting procedure 1) Setting the output mode (output 1, 2) Set the output 1 and output 2 with the DIP switches on the side of the counter. The minimum input signal width and maximum counting speed for the reset are set at the same time. DIP switches Item 1 2 3 4 5 6 7 8 OFF Output mode Output 1 Minimum reset input signal width Maximum counter setting Output mode Output 2 ON Refer to table 1 20ms 30Hz 1ms 5kHz Refer to table 2 DIP switches (see note 2) 2 3 4 5 6 7 8 ON 1 (Same for screw terminal type) Setting procedure 2) Setting the set value Set the set value with the UP keys on the front of the counter. Front display section Q Counter display W Set value display E Controlled output indicator R Setting 1/2 selection display (*Note) T Lock indicator *Note: Pressing the [SET/LOCK] key switches the display between the set value 1 and 2 displays. Display either set value [1] or [2], and set the value. Table 1 DIP swith No. Output mode (Output 1) 1 2 3 ON (See note 1) ON ON OFF HOLD-B OFF OFF OFF HOLD-C OFF ON HOLD-D OFF OFF ON OFF SHOT-A ON ON (See note 1) ON OFF OFF (See note 1) ON OFF ON (See note 1) OFF ON ON Table 2 DIP swith No. Output mode (Output 2) 8 6 7 HOLD-A ON ON ON HOLD-B OFF OFF OFF HOLD-C OFF OFF ON HOLD-D OFF ON OFF ON ON OFF SHOT-A OFF OFF ON SHOT-B OFF ON ON SHOT-C ON ON OFF SHOT-D Notes:1) The counter and set value displays will display DIP Err. Notes:2) Set the DIP switches before installing the counter on the panel. Notes:3) When the DIP SW setting is changed, turn off the power once. Notes:4) The DIP switches are set as ON before shipping. COUNTER 1 4 2 OP. 1 1 2 2 3 5 LOCK 6 RESET 7 SET/LOCK 8 LC4H-W Sixth digit First digit Y UP keys [Changes the corresponding digit of the set value in the addition direction (upwards)] U RESET switch Resets the counting value and the output I SET/LOCK switch Used to select between the Setting 1 display and Setting 2 display, to set and confirm the input mode, and to lock the keys (UP and RESET keys not responsive to touch). Procedure 3) Setting the input mode Set the input mode using the key and switch in the front display section on the counter front. (1) Hold down the SET/LOCK key and press the UP key for the first digit. The setting mode is accessed. (2) Now release the SET/LOCK key. (3) Press the UP key for the first digit and the input position changes counterclockwise. Addition subtraction Directive Independent Example) Input mode displayed (UP: addition mode) Phase difference (4) Press the RESET key and the input mode being displayed is set. The display then goes back to normal. * Checking the input mode * Changing the setting Hold down the SET/LOCK key and press the UP key for the second digit. The input mode is displayed for about 2 seconds and then the display goes back to normal. (During these 2 seconds, all operations other than the display are being performed.) 1. While the counter is working, the UP key can be used to change the setting. Keep the following points in mind, however. 1) Suppose that a preset count-up value is smaller than the displayed count value. The counter counts up to the full scale mark (999999), goes back to "0", and counts up again to the preset number. When the preset count-up value is larger than the displayed count value, the counter counts up to the preset value. 2) Suppose that the counter is preset to count down. Whether a preset count-down value is smaller or larger than the count value, the counter counts down to "0". * Locking the keys Hold down the SET/LOCK key and press the UP key for the sixth digit. The keys will lock. This means that the UP and RESET keys do not respond to touch. To unlock the keys,hold down the SET/LOCK key and press the UP key for the sixth digit again. * The input mode, maximum counting speed and minimum reset signal width cannot be preset independently for Setting 1 and Setting 2. * Selecting the Setting 1 or Setting 2 display 2. When the preset value is "0", the counter does not start in the count-up mode. It starts counting up when the count value comes to "0" again. 1) Up-count input The counter counts up to the full scale mark (999999), goes back to "0" and starts counting up again. 2) Down-count input The counter counts down to the full scale mark (-99999) and the display reads . The count value does not become "0" and so the counter does not count up. 3) Direction input, individual input, and phase input The preset value is counted up or down to any number other than "0" once. When it comes to "0" again, the counter starts counting up. Press the SET/LOCK key and the display changes between Setting 1 and Setting 2. (This operation does not affect overall operation.) 135 LC4H-W Operation modes 1. Input mode Q For the input mode, you can choose one of the following five modes. * Addition * Subtraction UP DOWN * Directive DIR * Independent IND * Phase PHASE W After the counter has been reset, setting 2 is displayed in the count-down mode. "0" appears instead in all other modes. Input mode Operation IN1 or IN2 works as an input block (gate) for the other input. *Minimum input signal width 30 Hz: 16.7 ms; 5 kHz: 0.1 ms * Example where IN1 is the counting input and IN2 is the input block (gate). I N 1 H L A A A A Blocked Addition I N 2 UP H L Counting (addition) Counting (subtraction) 0 1 2 3 n-3 n-2 n-1 n n-1 n-2 n-3 3 2 1 n 0 Reset Count UP * Example where IN2 is the counting input and IN1 is the input block (gate). I N 1 I N 2 Subtraction DOWN H L Blocked Blocked A A A A H L Counting (addition) 0 1 2 3 4 n-1 Counting (subtraction) n n-1 n-2 n-3 n-4 1 n 0 Reset Count UP * "A" must be more than the minimum input signal width. IN1 is the counting input and IN2 is the addition or subtraction directive input. IN2 adds at L level and subtracts at H level. Directive I N 1 H L I N 2 H L A Addition DIR 0 Counting 1 2 3 A 4 A Subtraction 3 2 *n: Set value 2 1 A 0 Addition 1 2 3 4 Reset * "A" must be more than the minimum input signal width. IN1 is addition input and IN2 is subtraction input. Independent IND I N 1 H L I N 2 H L 0 Counting 1 2 3 4 3 2 *n: Set value 2 1 2 1 2 3 Reset * IN1 and IN2 are completely independent, so there is no restriction on signal timing. Addition when the IN1 phase advances beyond IN2, and subtraction when the IN2 phase advances beyond IN1. Phase I N 1 H L I N 2 H L B B Phase advance PHASE Counting 0 1 Phase retard 2 3 2 Reset * "B" must be more than the minimum input signal width. 136 1 0 LC4H-W 2. Output mode For the set value 1, you can choose one of the following four modes. For the set value 2, you can choose one of the following eight modes. * Maintain output/over count I HOLD-B * Maintain output/hold count HOLD-A * Maintain output/over count II HOLD-C * Maintain output/over count I HOLD-B * Maintain output/over count III HOLD-D * Maintain output/over count II HOLD-C * One shot/over count SHOT-A * Maintain output/over count III HOLD-D * One shot/over count SHOT-A * One shot/recount I SHOT-B * One shot/recount II SHOT-C * One shot/hold count SHOT-D * Output mode for set value 1 Output mode Operation Output control is maintained after count-up completion and until resetting. However, counting is possible despite completion of count-up. (Example when input mode is either addition or subtraction) Counting (addition) n-2 n-1 n n+1 n+2 Maintain output Over count I Counting (subtraction) n+2 n+1 n n-1 n-2 HOLD-B Counting able/unable Able ON Output control 1 OFF * n: Set value 1 Maintain output Over count II Output control is maintained after count-up completion and until the next signal enters. However, counting is possible despite completion of countup. Counting (addition) n-2 n-1 n n+1 n+2 Counting (subtraction) n+2 n+1 n n-1 n-2 Able Counting able/unable HOLD-C ON Output control 1 OFF OFF * n: Set value 1 If the count value is greater than or equal to the preset value when counting up, the control output is held. The count operation is possible anyway. Maintain output Over count III Counting (addition) n-2 n-1 n n+1 n+2 Counting (subtraction) n+2 n+1 n n-1 n-2 Able Counting able/unable HOLD-D ON Output control 1 (addition) OFF ON OFF Output control 2 (subtraction) * n: Set value 1 Output control is maintained after count-up completion for a fixed time (approx. 1 sec). Counting is possible despite completion of count-up. One shot Over count Counting (addition) n-2 n-1 n n+1 n+2 Counting (subtraction) n+2 n+1 n n-1 n-2 Able Counting able/unable SHOT-A ON Output control 1 OFF OFF Approx. 1s * n: Set value 1 137 LC4H-W * Output mode for set value 2 Output mode Maintain output Hold count Operation Output control is maintained after count-up completion and until resetting. During that time, the count display does not change from that at count-up completion. (Example when input mode is either addition or subtraction) Counting (addition) Counting (subtraction) n-3 n-2 n-1 n 3 2 1 0 Unable Able Counting able/unable HOLD-A ON Output control 2 OFF * n: Set value 2 Maintain output Over count I Output control is maintained after count-up completion and until resetting. However, counting is possible despite completion of count-up. Counting (addition) Counting (subtraction) n-2 n-1 n n+1 n+2 2 1 0 -1 -2 n n+1 n+2 0 -1 -2 Able Counting able/unable HOLD-B ON Output control 2 OFF * n: Set value 2 Maintain output Over count II Output control is maintained after count-up completion and until the next signal enters. However, counting is possible despite completion of countup. Counting (addition) Counting (subtraction) n-2 n-1 2 1 Able Counting able/unable HOLD-C ON Output control 2 OFF OFF * n: Set value 2 Maintain output Over count III If the count value is greater than or equal to the preset value when counting up, the counter starts counting up again. The count operation is possible anyway. HOLD-D Counting (addition) Counting (subtraction) n-2 n-1 n n+1 n+2 2 1 0 -1 -2 Able Counting able/unable ON Output control 2 (addition) OFF Output control 2 (subtraction) OFF ON * n: Set value 2 One shot Over count Output control is maintained after count-up completion for a fixed time (approx. 1 sec). Counting is possible despite completion of count-up. Counting (addition) Counting (subtraction) n-2 n-1 2 1 n+1 n+2 0 -1 -2 Able Counting able/unable SHOT-A n ON Output control 2 OFF OFF Approx. 1s * n: Set value 2 One shot Recount I SHOT-B Output control is maintained after count-up completion for a fixed time (approx. 1 sec). Counting is possible despite completion of count-up. However, reset occurs simultaneous with completion of count-up. While output is being maintained, restarting of the count is not possible. Counting (addition) Counting (subtraction) n-2 n-1 2 1 0 1 2 n n-1 n-2 Reset (automatic) Able Counting able/unable ON Output control 2 OFF OFF Approx. 1s * n: Set value 2 138 LC4H-W Output mode One shot Recount II Operation (Example when input mode is either addition or subtraction) Output control is maintained after count-up completion for a fixed time (approx. 1 sec). Counting is possible despite completion of count-up. However, reset occurs simultaneous with output OFF. Counting (addition) Counting (subtraction) n-1 n n+1 1 0 -1 0 1 n n-1 Reset (automatic) Able Counting able/unable SHOT-C ON OFF Output control 2 OFF Approx. 1s * n: Set value 2 One shot Hold count Output control is maintained after count-up completion for a fixed time (approx. 1 sec). During that time, the count display does not change from that at count-up completion. Reset occurs simultaneous with output OFF. Counting (addition) Counting (subtraction) n-1 n 1 0 0 1 n n-1 Reset (automatic) Unable Able Counting able/unable SHOT-D Able ON Output control 2 OFF OFF Approx. 1s * n: Set value 2 Output mode for set value 1 HOLD-C SHOT-A HOLD-D As usual (this combination unchanged) HOLD-B As usual (this combination unchanged) Approx. 1s Output 1 Output mode for set value 2 SHOT-A SHOT-B Output 1 Output 2 Approx. 1s Output 1 Output 2 Approx. 1s Output 2 SHOT-C SHOT-D Note) When control output 1 is on, the output mode of setting 2 (SHOT-A, B, C, D) is also on and output 1 changes as shown in the above table. 3. Count-up (1) In control output 1, when the count value is equal to the preset value 1, it is counted. (However, if the output mode of the preset value 1 is HOLD-D, it is counted when the count value is greater than or equal to the preset value 1, regardless of the input mode.) (2) In control output 2, when the count value is equal to 0 in the count-down input mode, it is counted. In the other modes, when the count value is equal to the preset value 2, it is counted. (However, if the output mode of the preset value 2 is HOLD-D, it is counted when the count value is greater than or equal to the preset value 2, regardless of the input mode.) (3) It is not counted even when the counting conditions are satisfied right after resetting. It can be counted from when the count value changes. 139 PRECAUTIONS IN USING THE LC4H SERIES Precautions during usage 1. Terminal wiring 1) When wiring the terminals, refer to the terminal layout and wiring diagrams and be sure to perform the wiring properly without errors. 2) When using the instrument with an flush mounting, the screw-down terminal type is recommended. For the pin type, use either the rear terminal block (AT78041) or the 8P cap (AD8-RC) for the 8-pin type, and the rear terminal block (AT78051) or the 11P cap (AT8DP11) for the 11-pin type. Avoid soldering directly to the round pins on the unit. When using the instrument with a front panel installation, use the DIN rail terminal block (AT8-DF8K) for the 8-pin type and the DIN rail terminal block (AT8DF11K) for the 11-pin type. 3) After turning the counter off, make sure that any resulting induced voltage or residual voltage is not applied to power supply terminals W through U (8pin type), W through P (11-pin type) or 1 and 2 (screw terminal type). (If the power supply wire is wired parallel to the high voltage wire or power wire, an induced voltage may be generated between the power supply terminals.) 4) Have the power supply voltage pass through a switch or relay so that it is applied at one time. If the power supply is applied gradually, the counting may malfunction regardless of the settings, the power supply reset may not function, or other such unpredictable occurrence may result. 2. Input connections (except LC4HS/AC type) The power circuit has no transformer without a transformer (power and input terminals are not insulated). When an input signal is fed to two or more counters at once, do not arrange the power circuit in an independent way. If the counter is powered on and off independently as shown in Fig. A, the counter's internal circuitry may get damaged.Be careful never to allow such circuitry. (Figs. A, B and C show the circuitry for the 11-pin type.) (Fig. A) Input contact or transistor 2 Input terminal 3 2 140 10 10 Power supply Also, use transistors with a residual voltage of less than 2 V when the transistor is on. Reset input (Fig. B) Input 1 Input contact or transistor Input 2 Lock input Input terminal 3 10 2 Power supply Input contact or transistor Input terminal 3 10 2 When power circuitry is not independent, one input signal can be fed to two or more counters at once, as shown in Fig. C. (Fig. C) Input contact or transistor Input terminal 3 10 2 Power supply Input terminal 3 10 2 8-pin type 1 -- 5 4 11-pin type 3 4 5 6 7 Screw terminal type 6 7 8 9 10 3 Note: The LC4H-W does not have the lock input R, 7 . 3. Input and output 1) Signal input type (1) Contact point input Use highly reliable metal plated contacts. Since the contact point's bounce time leads directly to error in the count value, use contacts with as short a bounce time as possible. In general, select Input 1 and Input 2 to have a maximum counting speed of 30 Hz and to be reset with a minimum input signal width of 20 ms. * The short-circuit impedance should be less than 1 k. [When the impedance is 0 , the current coming from the input 1 and input 2 terminals is approximately 12 mA, and from the reset input and lock input terminals is approximately 1.5 mA.] Also, the open-circuit impedance should be more than 100 k. * As shown in the diagram below, from a non-contact point circuit (proximity switches, photoelectric switches, etc.) with a power supply voltage of between 12 and 40 V, the signal can be input without using an open collector transistor. In the case of the diagram below, when the non-contact point transistor Q switches from off to on (when the signal voltage goes from high to low), the signal is input. 12 to 40V DC Reset input Q Reset input Input 1 Input 2 Lock input 8-pin type 1 -- 5 4 11-pin type 3 4 5 6 7 Screw terminal type 6 7 8 9 10 3 (The above example is for reset input) 8-pin type 1 -- 5 4 11-pin type 3 4 5 6 7 Screw terminal type 6 7 8 9 10 3 Note: The LC4H-W does not have the lock input R, 7 . Input terminal 3 If independent power circuitry must be used, keep the input contacts or transistors separate from each other, as shown in Fig. B. (2) Non-contact point input Connect with an open collector. Use transistors whose characteristics satisfy the criteria given below. VCEO = 20 V min. IC = 20 mA min. ICBO = 6A max. 2) The input mode and output mode change depending on the DIP switch settings. Therefore, before making any connections, be sure to confirm the operation mode and operation conditions currently set. PRECAUTIONS IN USING THE LC4H SERIES * Surge wave form [ (1.2 x 50) ms uni-polar full wave voltage] LC4H counter As NPN output { O Load Load's power supply { O Load Load's power supply Note: With the LC4H 8-pin type and the LC4H-W, there is no diode between points I and O. (2) Use the diode connected to the output transistor's collector for absorbing the reverse voltage from induced loads. (LC4H only) LC4H counter VR (reverse voltage): 600 V (+) Input device (e.g., sensor) (-) Load's power supply 6) When wiring, use shielded wires or metallic wire tubes, and keep the wire lengths as short as possible. (-) Counter (Fig. B) Bad example AC power supply Insulation transformer (+) Input device (e.g., sensor) (-) (-) Counter AC power supply Single coil transformer (+) Input device (e.g., sensor) (-) (-) Counter Alternative current flow 4) The input signal is applied by the shorting of each input terminal with the common terminal (terminal Q for 8-pin type, terminal E for 11-pin type and terminal 6 for screw terminal types). Never connect other terminals or voltages higher than 40 V DC , because it may destroy the internal circuitry. 5) Transistor output (1) Since the transistor output is insulated from the internal circuitry by a photocoupler, it can be used as an NPN output or PNP (equal value) output. (The above example is 11-pin type) 0 1.2 4. Output mode setting The output mode can be set with the DIP switches on the side of the counter. Make the DIP switch settings before installing the counter on the panel. 5. Conditions of usage 1) Avoid locations subject to flammable or corrosive gases, excessive dust, oil, vibrations, or excessive shocks. 2) Since the cover of the unit is made of polycarbonate resin, avoid contact with or use in environments containing methyl alcohol, benzene, thinners, and other organic solvents; and ammonia, caustic sodas, and other alkaline substances. 3) If power supply surges exceed the values given below, the internal circuits may become damaged. Be sure to use surge absorbing element to prevent this from happening. 4) Regarding external noise, the values Operating voltage Surge voltage (peak value) AC type 6,000V DC type 1,000V 24V AC type 50 Time (s) I IF (forward current): 1 A Insulation transformer 30 0 Diode rating: AC power supply Peak value 50 LC4H counter As PNP output Inductive load (Fig. A) Good example 100 90 I Surge voltage (%) 3) The LC4H series use power supply without a transformer (power and input terminals are not insulated). In connecting various kinds of input signals, therefore, use a power transformer in which the primary side is separated from the ungrounded secondary side as shown in Fig. A, for the power supply for a sensor and other input devices so that short-circuiting can be prevented. Once the wiring to be used is completely installed and prior to installing this counter, confirm that there is complete insulation between the wires connected to the power terminals (2 each) and the wires connected to each input terminal. If the power and input lines are not insulated, a short-circuit may occur inside the counter and result in internal damage. In addition, when moving your equipment to a new installation location, confirm that there is no difference in environmental conditions as compared to the previous location. (except LC4H-S/AC type) below are considered the noise-resistant voltages. If voltages rise above these values, malfunctions or damage to the internal circuitry may result, so take the necessary precautions. Noise wave form (noise simulator) Power supply terminals Input DC type terminals AC type 24V AC type Noise voltage 1,500V 1,000V 600V Rise time: 1 ns Pulse width: 1 s, 50 ns Polarity: Cycle: 100 cycles/second 5) When connecting the operation power supply, make sure that no leakage current enters the counter. For example, when performing contact protection, if set up like that of diagram A, leaking current will pass through C and R, enter the unit, and cause incorrect operation. Diagram B shows the correct setup. Leakage current Operation power supply R C C (Fig. A) R Operation power supply C C (Fig. B) 6) Long periods of continuous operation in the count-up completed condition (one month or more) will result in the weakening of the internal electrical components from the generated heat and, therefore, should be avoided. If you do plan to use the unit for such continuous operation, use in conjunction with a relay as shown in the circuit in the diagram below. R R C R Relay C Counter R Receive output from contact at relay R 141 PRECAUTIONS IN USING THE LC4H SERIES 6. Self-diagnosis function If a malfunction occurs, one of the following displays will appear. Display or Contents Minimum value went below -999 or -99999. See note 1. Output condition No change Incorrect DIP switch setting. Malfunctioning CPU. Malfunctioning memory. See note 2. OFF Restoration procedure Enter reset or RESET key. Restart unit (correct DIP switch settings) Enter reset, RESET key, or restart unit. Preset values after restoration No change The values at start-up before the CPU malfunction occurred. 0 Note 1: When the counter value goes below the minimum value during any of the subtraction, directive, independent, or phase input modes. Note 2: Includes the possibility that the EEPROM's life has expired. 7. Compliance with the CE marking When using in applications to which EN61812-1 applies, abide by the following conditions. * Overvoltage category II, pollution level 2 (for sensor type model with power supply) 1. Connections between the power supply and input/output have basic insulation. Use a device with basic insulation to connect to the I/O terminals. (for sensor type model without power supply) 1) This counter employs a power supply without a transformer, so the power and input signal terminals are not insulated. 142 (1) When a sensor is connected to the input circuit, install double insulation on the sensor side. (2) In the case of contact input, use dualinsulated relays, etc. * The load connected to the output contact should have basic insulation. This counter is protected with basic insulation and can be double-insulated to meet EN/IEC requirements by using basic insulation on the load. * Applied voltage should be protected with an overcurrent protection device (example: 250 V 1A fuse, etc.) that conforms to the EN/IEC standards. 2) You must use a terminal block or socket for installing the pin-type counter. Do not touch the terminal section or other parts of the timer unit while an electric current is applied. Before installation or removal, confirm that there is no voltage being applied to any of the terminals. 3) Do not use this timer with a safety circuit. For example, when using a timer in a heater circuit, etc., provide a protection circuit on the machine side. COUNTERS SELECTOR CHART Classification Name of product Type LC2H Counter Total counter LC2H Counter Preset counter UP type UP, DOWN type Input mode/Input method Contact output (1 Form C) Open collector output Contact output (1 Form A) Electronic counters LC4H/-L Counter Preset counter LC4H-S Counter Preset counter UP, DOWN, and DIR (multi-mode)/DIP switch UP, DOWN, and DIR (multi-mode)/DIP switch LC4H-W Counter Preset counter UP, DOWN, and DIR (multi-mode) 2 modes selectable/DIP switch Flush mounting type Appearance PC board mounting type 4-digit display 6-digit display AEL3 8.7 mm tall 8-digit display Preset function equipped in half size Display has backlight for instant recognition Flush mounting type: Unnecessary (Built-in battery) PC board mounting type: 3 V DC (Battery in externally installed) 24 V DC 100 to 240 V AC 24 V AC, 12 to 24 V DC 8-digit 8-digit 4-digit 6-digit Features Rated operating voltage 4-digit display AEL3 8.7 mm tall 8-digit display Bright 2-color back light 6-digit display Bright and easy-to-read display Simple operation Pre-scale function Built-in power supply for highcapacity sensor (100 to 240 V AC type) Conforms to IP66's weather resistant standards 100 to 240 V AC Bright and easy-to-read display Simple operation Short body Conforms to IP66's weather resistant standards 4-digit 6-digit Bright and easy-to-read display Simple operation Upper and lower limit settings are available. Conforms to IP66's weather resistant standards 100 to 240 V AC 24 V AC 12 to 24 V DC 6-digit 0 0 0 0 0 0 0 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9999 999999 9999 999999 9 9 9 9 9 9 Number of digits (counter capacity) Zero-suppress function (LCD) Zero-suppress function (LCD) Counter/Indication 7-segment LCD Counter value (backlight red LED) Setting value (backlight yellow LED) 7-segment LCD Counter value (backlight red LED) Setting value (backlight yellow LED) 7-segment LCD Counter value (backlight red LED) Setting value (backlight yellow LED) Flush mounting type: 2kHz/30Hz Counting speed (Changeable by a switch) PC board mounting type: 2kHz/30Hz 30Hz/5kHz (switchable) 30Hz/5kHz 30Hz/5kHz 30Hz/5kHz (Different type) Input Reset (Reset input specifications conform to those of counting input) Counting (signal) input and reset input * Input by short-circuiting or opening contacts * Open collector input * Voltage input * Front reset button and external reset input terminal * External reset dip terminal Preset -- Control output -- Power supply output Options Available standards Page -- Flush mounting type (No need for easy installation type) Mounting frame, rubber gasket UL, c-UL, CE P. 98 Counting (signal) input and reset input * Input by short-circuiting or opening contacts * Open collector input 2-input (multi-mode) and reset input * Input by short-circuiting or opening contacts. * Open collector input 2-input (multi-mode) and reset input * Input by short-circuiting or opening contacts. * Open collector input 2-input (multi-mode) and reset input * Input by short-circuiting or opening contacts. * Open collector input * Manual reset with and external terminal and front reset key * Manual reset types inside one-short output models * Counter number setting with key switches * Manual reset with and external terminal and front reset key * Manual reset types inside one-short output models * Operation mode setting with dip switches * Counter number setting with key switches * Manual reset with and external terminal and front reset key * Manual reset types inside one-short output models * Operation mode setting with dip switches * Counter number setting with key switches * Manual reset with and external terminal and front reset key * Manual reset types inside one-short output models * Output mode setting with dip switches * Counter number setting with key switches or -- Mounting frame, rubber gasket UL, c-UL, CE P. 106 -- 11 P plug-in (terminal block, socket) 8 P plug-in (terminal block, socket) UL, c-UL, CE P. 115 or or -- External power supply 12 V DC 100 mA max. (AC type only) 11 P plug-in 11 P plug-in (terminal block, socket) (terminal block, socket) UL, c-UL, CE P. 123 UL, c-UL, CE P. 132 93 TYPICAL COUNTER APPLICATIONS The highly accurate, reliable counters can be controlled from the front panel and are suitable for a wide range of applications. DOWN and HOLD-A modes for shipment quantity counting IND and HOLD-D modes for parking lots PHASE and HOLD-A modes for valve control Rotary encoder To valve FULL VACANT Photoelectric switch IN1 (up count) Motor IN2 (down count) (stop/start) Entrance Photoelectric switch Shipment quantities are counted to control the conveyor line flow. UP and SHOT-A modes for packing a specified number of copies Exit Incoming and outgoing cars are counted to switch the FULL and VACANT signs. UP and SHOT-B modes for packing medicine tablets Rotary encoder signals are counted to control a valve aperture. UP and SHOT-C modes for counting acceptables Electric counter Motor IN1 (up count) Marking Photoelectric switch Film Cutter Labeling machine Sorting machine Printing machine Acceptables Mark sensor Mark sensor Rejectables IN2 (down count) Printed matter is counted to package a specified number of copies. UP and SHOT-D modes for winding leader sheet Medicine tablets are packed in specified quantities. DIR input mode for controlling part stocks Labeled cans alone are counted up. Rejected cans are not counted. PHASE input mode for sizing Mark sensor Electric counter Cutter Leader sheet IN2 (down count) Rotary encoder IN1 (counting) Rotary encoder (single-phase) IN1 (up count) Extra leader sheet that is now wound is counted by a rotary encoder and a color detecting sensor. 94 Pipe IN2 (up/down count selection) Incoming and outgoing parts are counted to keep parts feeders well-stocked. Teamed up with a rotary encoder, the counter is used to control the cutting length of pipes. COUNTER-RELATED TERMINOLOGY 1. Electro Preset Counter The counter is equipped with semiconductor counting circuitry. When the counter counts up to a preset number, its output circuit sends a signal. 2. Electro Magnetic Counter A magnet is magnetized and demagnetized to drive the dial and count up numbers. RATING 1. Rated Operating Voltage The voltage is applied to start the counter. COUNTINGS 1. Pulse This is a voltage or current signal sent at intermittent time intervals. 2. Count Pulses are used to count up and down. 3. Miss-count This happens if the number of pulses does not correspond to the number of counts. 8. Recount When counting is up, the counter display resets to zero and counting restarts. 9. Down Count Numbers are counted down one by one from a preset number. 10. Up Count Numbers are counted up one by one from zero. 11. Up/Down Count Numbers are counted up or down depending on input conditions. 12. Rejection (gate) Input This signal is used to keep the counter from counting. OUTPUTS 1. Count Up When a preset number is reached, the output circuit sends a signal. 2. Retained Output The output is held until a reset signal is sent. 4. Hertz This unit of counting speed is used to give the number of counts per one second. 3. One Shot Output This output has a specified width of time. 5. Make Ratio This is the ratio of ON time (Ta) to OFF time (Tb). 1. Reset The counting process, display and output sections are all brought back to the initial status. Ta Tb Time 6. Maximum Counting Speed Suppose that the counter is operated with an input pulse of a make ratio of 1. The highest counting speed is the peak of a range in which the output circuit can send signals without mis-counting. The speed is expressed in units of Hz (cps: counts per a second). 5. Automatic Reset When counting is up, internal circuitry is activated to automatically reset the counter. 6. Reset Signal Width This is the time during which the power is off so as to reset the counter or during which an external (manual) reset signal is sent. 7. Reset time This is the time from the moment a reset signal is sent to the instant the counter is ready to start counting again. OTHERS 1. Function of Memorizing Condition Counting data up until the operating voltage is turned off can be stored in memory. When the power is reactivated, the data can be reproduced. 2. Anti-surge The strength against power voltage surge is determined by applying a singlepole full-wave voltage (several hundred to several thousand volt wave for (1.2 x 50) s) acrosss the control power terminals. Surge waveform [Single-pole full-wave voltage for (1.2 x 50) s] RESETTINGS 2. Power off Reset The operating voltage is turned off to reset the counter. 3. Manual Reset The counter is manually reset. Surge voltage (%) TYPES OF COUNTERS 100 90 Peak value 50 30 0 0 1.2 50 Time (s) 3. Noise Immunity This is the strength against external noise. Relay noise tests, noise simulator tests, etc. are conducted. 4. Remote Reset A signal is sent from a remote point to the reset terminal so as to reset the counter. 7. Over Count Counting continues beyond a preset number. 95 PRECAUTIONS IN USING THE COUNTER Cautions for circuits 1. Protective circuit for counter contact In the circuit that switches an inductive load, a contact failure may occur at a contact point due to surge or inrush current resulting from that switching. Therefore, it is recommended that the following protective circuit be used to protect the contact point. Application AC DC (see note.) Available r c Diode Available Available If the load is a relay or solenoid, the release time lengthens. Effective when connected to both contacts if the power supply voltage is 24 or 48 V and the voltage across the load is 100 to 200 V. Features/Others Device Selection If the load is a timer, leakage current flows through the CR circuit causing faulty operation. -- Note: If used with AC voltage, be sure the impedance of the load is sufficiently smaller than that of the CR circuit. As a guide in selecting r and c, c: 0.5 to 1 F per 1 A contact current r: 0.5 to 1 per 1 V contact voltage Values vary depending on the properties of the load and variations in counter characteristics. Capacitor c acts to suppress the discharge the moment the contacts open. Resistor r acts to limit the current when the power is turned on the next time. Test to confirm. Use a capacitor with a breakdown voltage of 200 to 300 V. Use AC type capacitors (non-polarized) for AC circuits. 2. Type of Load and Inrush Current The type of load and its inrush current characteristics, together with the switching frequency, are important factors which cause contact welding. Particularly for loads with inrush currents, measure the steady state current and inrush current and use a relay or magnet switch which provides an ample margin of safety. The table below shows the relationship between typical loads and their inrush currents. ZNRvaristor Not available Available The diode connected in parallel causes the energy stored in the coil to flow to the coil in the form of current and dissipates it as joule heat at the resistance component of the inductive load. This circuit further delays the release time compared to the CR circuit. (2 to 5 times the release time listed in the catalog) Use a diode with a reverse breakdown voltage at least 10 times the circuit voltage and a forward current at least as large as the load current. In electronic circuits where the circuit voltages reverse breakdown voltage of about 2 to 3 times the power supply voltage. various kinds of input signals, therefore, use a power transformer in which the primary side is separated from the ungrounded secondary side as shown in Fig. A, for the power supply for a sensor and other input devices so that short-circuiting can be prevented. (Fig. A) Good Inductive load c Varistor circuit Counter contact Inductive load r Diode circuit Counter contact Inductive load Circuit Inductive load CR circuit (r: resistor c: capacitor) Counter contact Counter contact Available Available Using the rated voltage characteristics of the varistor, this circuit prevents excessively high voltages from being applied across the contacts. This circuit also slightly delays the release time. -- 4. Long Continuous Current Flow Avoid keeping the counter on for a long period of time (over one month). Otherwise heat is generated and accumulated inside the counter, which may deteriorate its electronic parts. If the counter must be kept on for a long period of time, a relay is added. See the circuit diagram below. Insurating transformer (+) Input equipment (sensor, etc.) (-) C R R R (-) Type of load Resistive load Solenoid load Motor load Incandescent lamp load Mercury lamp load Sodium vapor lamp load Capacitive load Transformer load Inrush current Steady state current 10 to 20 times the steady state current 5 to 10 times the steady state current 10 to 15 times the steady state current 1 to 3 times the steady state current 1 to 3 times the steady state current 20 to 40 times the steady state current 5 to 15 times the steady state current When you want large load and long life of the counter, do not control the load direct with a counter. When the counter is designed to use a relay or a magnet switch, you can acquire the longer life of the counter. 3. Connection of input (Except for LC4H-S/AC type) The LC4H series use power supply without a transformer (power and input terminals are not insulated). In connecting 96 Counter R (Fig. B) No good AC power supply Insurating transformer (+) Input equipment (sensor, etc.) (-) (-) Counter AC power supply Single coil transformer (+) Input equipment (sensor, etc.) (-) (-) Counter AC power routing Do not use a single coil transformer (e.g., Sly-Duck). Otherwise, the internal circuit of the counter will be short-circuited as shown in Fig. B resulting in breakdown. Relay C Counter Receive output from contact at relay R PRECAUTIONS IN USING THE COUNTER Cautions for use (common for all models) 1. Terminal connections Correctly connect the pins while seeing the terminal layout/wiring diagram. In particular, the DC type, which has polarities, does not operate with the polarities connected reverse. Any incorrect connection can cause abnormal heating or ignition. 2. Connection to operating voltage 1)Apply the entire supply voltage through a switch, relay or other contact. 2) The operating voltage for the DC type must be at the specified ripple percentage or less. The average voltage must fall within the allowable operating voltage range. (Fig. A) Leakage current R R Operating voltage C C Counter 5. Superimposed surge of power supply For the superimposed surge of power supply, the standard waveform (1.2 x 50s or 1 x 40s) is taken as the standard value for surge-proof voltage. (The positive and negative voltages are applied each three or five times between the power pins.) For the standard values for the LC4H type counters, see the respective items in "Cautions for use." * Single-pole, full-wave voltage for surge waveform [(1.2 x 50) s] 100 90 C C Ripple percentage Approx. 48% Approx. 4% Approx. 17% 3) Make sure that no induced voltage and residual voltage are applied between the power terminals on the counter after the power switch is turned OFF. (If the power line is wired in parallel with the high-voltage and motor lines, induced voltage may be produced between the power pins.) 3. Control output 1) Keep the load capacity below the counter's rated control capacity. If used above the rating, the counter's service life may shorten. With the transistor output type counters, transistors may be damaged. 4. Installing the counter 1) To install the counter, use the dedicated pin bracket or socket (cap). Avoid connecting the pins on the counter by directly soldering them. 2) In order to maintain the characteristics, do not remove the counter cover (case). Counter 3) The counter cover (case), the knobs, and the dials are made of polycarbonated resin. Therefore, prevent the counter from being exposed to organic solvents such as methyl alcohol, benzine, and thinner, strong acid substances such as caustic soda, and ammonia and avoid using the counter in atmosphere containing any of those substances. 4) If the counter is used where noises are emitted frequently, separate the input signal elements (such as a sensor), the wiring for the input signal line, and the counter as far as possible from the noise source and the high power line containing noises. Input line Peak value Sensor, etc. 50 30 Counter Rectification type Single-phase, full-wave Three-phase, full-wave Three-phase, half-wave 2) If the counter is directly switched with a non-contact element, leak current may flow into the counter and cause it to malfunction. (Fig. B) Operating voltage Surge voltage (%) 5. Leakage current 1) For connecting operating voltage to the counter, a circuit should be used, which will prevent the flow of leakage current. For example, a circuit for contact protection as shown in Fig A. will permit leakage current flow through R and C, causing erroneous operation of the counter. Instead, the circuit shown in Fig. B should be used. 0 0 1.2 As remote as possible 50 Time (s) If external surge occurs exceeding the specified value, the internal circuit may break down. In this case, use a surge absorption element. The typical surge absorption elements include a varistor, a capacitor, and a diode. If a surge absorption element is used, use an oscilloscope to see whether or not the foreign surge exceeding the specified value appears. 6. Signal input The counter's signal input comes in two ways. One is by opening and closing the input terminal. The other is by applying a specified H-level or L-level voltage to the input terminal. For an input sensor's residual voltage, input impedance, input voltage level and other signal input conditions, see the ratings for each type of product. 7. Operating environment 1) For the ambient operating temperature and humidity, see the ratings for each type of product. 2) Avoid using the counter in a location where inflammable or corrosive gas is generated, the counter is exposed to much dust and other foreign matter; water or oil is splashed on the counter; or vibrations or shocks are given to the counter. Power line, etc. 8. Checking the actual load In order to increase the reliability in the actual use, check the quality of the counter in the actual usage. 9. Others 1) If the counter is used exceeding the ratings (operating voltage and control capacity), the contact life, or any other specified limit, abnormal heat, smoke, or ignition may occur. 2) The LC2H series counter, incorporates a lithium battery. Never disassemble the lithium battery or throw it into fire because this may affect humans and facilities. The lithium battery must be disposed of as an incombustible like other used batteries. 3) If any malfunction of the counter is likely to affect human life and properties, give allowance to the rated values and performance values. In addition, take appropriate safety measures such as a duplex circuit from the viewpoint of product liabilities. 97 DIN SIZE COUNTERS COMMON OPTIONS Terminal sockets (Unit: mm inch, Tolerance: 1 .039) Type Appearance Terminal wiring (Top view) Dimensions Mounting hole dimensions * DIN rail socket (8-pin) 24 .945 19 .748 50 1.969 M3.5 M.138 40 1.575 6 LC4H LC4H-L (8-pin type) 6 24 .945 4 70 2.756 35.3 1.390 7 8 1 4 50 1.969 3 2- 4.5 2- .177 3 70 2.756 70 2.756 50 1.969 5 5 70 2.756 7 8 1 400.2 1.575.008 13 .512 Note: Terminal No. on the main body are identifical to those on the terminal socket. 2 4 .157 ATC180031 2-M4 2-M.157 screw holes (or 4.2 0.1 .1650.1 dia. holes) 2 The minimum distance between the holes which areparallel drilled. * DIN rail socket (11-pin) 30.5 1.201 29.5 1.161 50 1.969 M3.5 M.138 40 1.575 8 LC4H LC4H-L LC4H-S LC4H-W (11-pin type) 7 6 30.5 1.201 4 70 2.756 4 70 2.756 70 2.756 50 1.969 50 1.969 8 7 6 5 2- 4.5 2- .177 5 35.3 1.390 9 10 9 2-M4 2-M.157 screw holes (or 4.2 0.1 .1650.1 dia. holes) 3 10 11 1 2 3 11 1 Note: Terminal No. on the main body are identifical to those on the terminal socket. 2 4 .157 ATC180041 400.2 1.575.008 13 .512 The minimum distance between the holes which areparallel drilled. Note: The terminal numbers on the counter are identifical to those on the terminal socket. Sockets (Unit: mm inch, Tolerance: 1 .039) Appearance * Rear terminal socket 41 1.614 38 1.496 M3.5 M.138 41 1.614 21 .827 21 .827 16 .630 38 1.496 3 4 5 6 2 1 8 7 3 4 5 Mounting hole dimensions 6 -- 2 1 8 7 AT78041 34.6 1.362 31.4 1.236 14 30 .551 1.181 5 .197 M3.5 M.138 45 1.772 21 .827 4 AT8-DP11 1 10 30 1.181 8.6 .339 6 3 2 1 9 14 30 .551 1.181 8 .315 26 1.024 (34.6) (1.362) 10 9 8 2 31.4 1.236 32.5 1.280 -- 11 8 11 3 34.6 1.362 7 5 6 7 8 4 3 2 31.4 1.236 6 4 -- 9 -- 10 LC4H LC4H-L AT78051 LC4H-S LC4H-W * 11P cap (11-pin type) 5 43.4 1.772 21 .827 16 .630 6 5 43.4 1.709 45 1.772 8 2 32.5 1.280 * Rear terminal socket 8 .315 26 1.024 (34.6) (1.362) 8.6 .339 7 30 1.181 AD8-RC 1 3 31.4 1.236 7 * 8P cap 4 LC4H LC4H-L (8-pin type) Terminal wiring (Top view) Dimensions 5 Type 1 11 Note: The terminal numbers on the counter are identifical to those on the socket. 143 DIN SIZE COUNTERS COMMON OPTIONS Mounting parts * Rubber gasket * Mounting frame Applicable for LC4H series 50.0 1.969 Applicable for LC4H series 48 1.890 1.0 .039 50.0 1.969 ATC18002 48 1.890 68 2.677 AT8-DA4 The rubber gasket is enclosed in the LC4H series. 1,000 1 39.37 .039 * Mounting rails (Applicable for DIN and IEC standards) 5.5 .217 * Fastening plate 50 1.969 M4 M.157 12 .472 2.75R .108R 15 10 15 5 5 15 10 15 .197 .591 .394 .591 10 .394 .591 .394 .591 .197 Oval hole, 40-5.5x15 40-.217x.591 27 1.063 10 .394 UP 35 24 1.378 .945 1.5 .059 AT8-DLA1 Length: 1 m aluminum ATA4806 ATA4806 For holding DIN rails 7.5 .295 * Protective cover for DIN 48 size Flexible type 50 1.969 11 .433 50 1.969 AQM4803 Accessories * Panel cover (Black) LC4H Panel cover (4 digits) LC4H Panel cover (6 digits) COUN RESE COUN TER RESE T RESE T COUN TER RESE T UP SET/L LOCK SET/L OCK COUN TER RESE T DOWN T SET/L OCK OCK DOWN LC4H AEL58012 AEL58013 LC4H LC4H AEL58014 AEL68011 The black panel cover is also available so that you can change the appearance of the panel by changing the panel cover. The color of the standard panel cover is ash gray. 144 TER LC4H LC4H AEL58011 COUN TER UP LOCK LC4H-S Panel cover (4 digits) LC4H-S Panel cover (6 digits) LC4H-W Panel cover -W INSTALLING DIN SIZE COUNTER Installation methods 1. Surface mount 1) For the counters of LC4H series, use the pin type counter. 2) How to mount the counter From the panel front, pass the counter through the square hole. Fit the mounting frame from the rear, and then push it in so that the clearance between the mounting frame and the panel surface is minimized. In addition, lock the mounting frame with a screw. 2) Put the terminal socket on the board directly or put it on the DIN rail (Fig. 1). 3) Insert the counter into the terminal socket and fix it with clip (Fig. 2) 4) On DIN rail mounting, mount the counter on the DIN rail tightly to get the proper dimension (Fig. 3). * LC4H series (Fig. 1) Panel cover Mounting flame +0.6 0 +.024 0 PUSH +0.6 0 +.024 0 (Fig. 2) Screw +0.6 0 +.024 0 Rubber gasket Terminal socket (Fig. 3) DIN rail 5) 8-pin type should be connected with terminal socket AT8-DF8K. 11-pin type should be connected with terminal socket AT8-DF11K. 6) DIN rail (AT8-DLA1) is also available (1 m). 2. Flush mount 1) For the counters of LC4H series, it is recommended to use the built-in screw terminal type for flush mount. (Mounting frame and rubber gasket are provided when counter is shipped.) 5) Correctly connect the terminals while seeing the terminal layout and wiring diagram. 6) If the pin type is used, the rear pinbracket (AT8-RR) or the 8P cap (AD8RC) is necessary to connect the pins. For the 11-pin type, use the 11P cap (AT8-DP11) and avoid directly soldering the round pins on the counter. 7) Panel cutout dimensions The standard panel cutout dimensions are 45 shown in the left fig1.772 ure. (Panel thickness: 45 1 to 5 mm .039 to .197 1.772 inch) 8) Although the Min. 80 3.150 counters can be 45 1.772 mounted adja45 cent to each 1.772 other in this 80 case, it is rec- Min. 3.150 ommended to arrange the mounting holes as shown in the figure to facilitate attaching 45 1.772 and detaching the mounting A frame. 9) Adjacent mounting Although the counters can be mounted adjacent to each other, remember that the panel surface of LC4H series counter will lose its water-resistant effect. (Panel thickness: 1 to 5 mm .039 to .197 inch) A = (48 x n - 2.5) +0.6 +0 When lining up the counters horizontally, set the frames in such a position so the formed spring areas are at the top and bottom. When lining up the counters vertically, set the frames in such a position Formed spring as the formed spring areas are at the right and left. 3) Caution in mounting the counter * LC4H series a If the LC4H series are used as the waterproof types (IEC IP66), tighten the reinforcing screws on the mounting frames so that the counters, the rubber gaskets, and the panel surfaces are tightly contacted with each other. (Tighten the two screws with uniform force and make sure that there is no rattling. If the screws are tightened too excessively, the mounting frame may come off.) b If the counter is installed with the panel cover and the rubber gasket removed, the waterproofing characteristic is lost. 4) Removal Loosen the screws on the mounting frame, spread the edge of frame and remove it. Pull the mounting frame backward while spreading out its hooks with your thumbs and index fingers. 1 +0.6 0 +.024 0 +0.6 0 +.024 0 2 Formed spring 1 145 DISCONTINUED MODELS AND RECOMMENDED SUBSTITUTES Timers Discontinued models Recommended substitutes MHP-NS Exposed type Square plug-in/ horizontal type MHP-N MHP-NS- MHP-N- MHP-M Exposed type Round plug-in/ horizontal type Exposed type Round plug-in/ vertical type MHP-NM Exposed type Round plug-in/ vertical type MHP-M- MHP-NM- MHP-YC Embedded type With attachment frame MHP-N Exposed type Without attachment frame MHP-YC- MHP-N- MHP-YM Embedded type With attachment frame MHP-NM Exposed type Without attachment frame MHP-YM- MHP-NM- CHP-N Exposed type with attachement frame type PM4H-S PMH Exposed type without attachment frame type CHP-N- PM4H-S PMH Terminal base AT8-RFD should be used. Attachment frame AT7821 should be used. Attachment frame AT7831 should be used. The external dimension and contact capacity are different. The external dimension and contact capacity are different. PM4HSPMH- CHP-NF Exposed type without attachment frame type PM4H-F CHP-NF- PM4HF- 180 Terminal base AT8-RFD should be used. PM4HSPMH- CHP-NCHP-N Attachment * External dimensions, however, differ. In addition, the reset method changes from voltage input to non-voltage input. Discontinued models Recommended substitutes CHP-NF Exposed type Round plug-in/ vertical type PM4H-F CHP-NF PM4HF- CHP-SD PM4H-SD CHP-SD- PM4HSD- PM48A PM4H-A PM48A- PM4HA- PM48 PM4H-S PM48 PM4HS- PM48M PM4H-M PM48M- PM4HM- PM48F PM4H-F PM48F- PM4HF- PM48SD PM4H-SD PM48SD PM4HSD Attachment Attachment frame AT7821 should be used. * External dimensions, however, differ. In addition, the reset method changes from voltage input to non-voltage input. With exposed attachment, terminal base ATC180041 should be used. * External dimensions and contact capacity, however, differ. In addition, with the PM4H-SD: 1) (1) to (8) have no internal connection, and 2) the input (star) changes to 1a. With exposed attachment, terminal base ATC180041 should be used. With exposed attachment, terminal base ATC180031 should be used. With exposed attachment, terminal base ATC180031 for F8 type and F8R type ATC180041 for F11R type. With exposed attachment, terminal base ATC180031 for F8 type and F8R type ATC180041 for F11R type. With exposed attachment, terminal base ATC180031 should be used. Timers Discontinued models Recommended substitutes PM48W PM4H-W PM48W PM4HW- PMH-M PM4H-M/PM4S Attachment With exposed attachment, terminal base ATC180031 should be used. The external dimension and contact capacity are different. Discontinued models Recommended substitutes LT48 (8-pin) LT4H (8-pin) LT48 LT4H LT4H-L LT48W (8-pin) LT4H-W (8-pin) PMH-M- PM4HM-/PM4S- LT48W LT4HW CDX Time relay S1DXM-A Timer/ S1DX Timer DIN rail socket (8-pin) DIN rail socket (8-pin) CDX S1DXM-/S1DX- ATC18003 ATC180031 PDX Timer S1DXM-A Timer/ S1DX Timer DIN rail socket (11-pin) DIN rail socket (11-pin) PDX S1DXM-/S1DX- ATC18004 ATC180041 VHP digital high-power timer QM4H digital timer Attachment The size is different. Compact size DIN48 VHP QM4H QM48S (8-pin) QM4H (8-pin) QM48S QM4H QM72S (Screw terminal) QM4H (8-pin) The size is different. 72 48 QM72S QM4H In some cases, the specifications of the recommended substitutes are not exactly the same as those of the discontinued model. Please confirm the specifications before using the recommended substitutes. 181 Counters Hour meters Discontinued models Recommended substitutes MC electromagnetic counters MC6 LC48 Relay type: 8-pin Tr type: 11-pin LC4H Attachment LC4H LC4H-L LC4H Discontinued models Recommended substitutes The size and attachment method are different. The input method is different. (Voltage input non-voltage input) Attachment Body Round type (attachment hole 45) TH11* TH12* TH141S TH142S Relay type: 8-pin Tr type: 11-pin Square type (attachment hole 45) Body Square type (attachment hole 47) Square type (attachment hole 45) LC48 LC4H LC4H-L TH21* TH22* TH241S TH242S LC48W (11-pin) LC4H-W (11-pin) TH30 LT4H (~999.9 h) LC48W LC4H-W TH30 LT4H EM48S (8-pin) LC4H (8-pin) EM48S LC4H LC4H-L EM72S (Screw terminal) LC4H (Screw terminal) The size and attachment method are different. The input method is different. (Voltage input non-voltage input) LT4H-W (~9999 h) LT4HW The size is different. 72 LH24 Panel-mounting type LH2H Panel-mounting type * One-touch installation type LH24 * One-touch installation type The both one-touch installation type and installation frame type are available. 48 EM72S LC4H LC4H-L LC24 Panel-mounting type LC2H Panel-mounting type The both one-touch installation type and installation frame type are available. * Installation frame type LH2H * One-touch installation type LC24 * One-touch installation type * Installation frame type LC2H LH24 LH2H PC board mounting type PC board mounting type LH24 LH2H LC24 LC2H PC board mounting type PC board mounting type LC24 LC2H In some cases, the specifications of the recommended substitutes are not exactly the same as those of the discontinued model. Please confirm the specifications before using the recommended substitutes. 182 FOREIGN SPECIFICATIONS OVERVIEW 1. International Standards 3. Europe IEC standard EN standard International Electrotechnical Commission By promoting international cooperation toward all problems and related issues regarding standardization in the electrical and electronic technology fields, the IEC, a non-governmental organization, was started in October, 1908, for the purpose of realizing mutual understanding on an international level. To this end, the IEC standard was enacted for the purpose of promoting international standardization. 2. North America LISTING MARK Fig. 1 RECOGNITION MARK Fig. 2 Certification Fig. 3 Component Acceptance Fig. 4 Fig. 5 UL (Underwiters Laboratories Inc.) This is a non-profit testing organization formed in 1894 by a coalition of U.S. fire insurance firms, which tests and approves industrial products (finished products). When electrical products are marketed in the U.S., UL approval is mandated in many states, by state law and city ordinances. In order to obtain UL approval, the principal parts contained in industrial products must also be ULapproved parts. UL approval is divided into two general types. One is called "listing" (Fig. 1), and applies to industrial products (finished products). Under this type of approval, products must be approved unconditionally. The other type is called "recognition" (Fig. 2), and is a conditional approval which applies to parts and materials. CSA (Canadian Standards Association) This was established in 1919 as a non-profit, nongovernmental organization aimed at promoting standards. It sets standards for industrial products, parts, and materials, and has the authority to judge electrical products to determine whether they conform to those standards. The CSA is the ultimate authority in the eyes of both the government and the people in terms of credibility and respect. Almost all states and provinces in Canada require CSA approval by law, in order to sell electrical products. As a result, electrical products exported from Japan to Canada are not approved under Canadian laws unless they have received CSA approval and display the CSA mark. Approval is called "certification", and products and parts which have been approved are called "certified equipment", and display the mark shown in Fig. 3. The mark shown in Fig. 4 is called the "Component Acceptance" mark, and indicates conditional approval which is applicable to parts. The C-UL mark shown in Fig. 5 (finished products) and Fig. 6 (parts) indicates that the product has been tested and approved in UL laboratories, based on UL and CSA standards, through mutual approval activities. European Standards/Norme Europeennee (France)/Europaishe Norm (Germany) Abbreviation for European Standards. A unified standard enacted by CEN/CENELEC (European Standards Committee/European Electrical Standards Committee). EU and EFTA member nations employ the content of the EN standards into their own national standards and are obligated to abolish those national standards that do not agree with the EN standards. (1) Germany VDE TUV Rheinland VDE (Verband Deutscher Elektrotechniker) The VDE laboratory was established mainly by the German Electric Technology Alliance, which was formed in 1893. It carries out safety experiments and passes approval for electrical devices and parts. Although VDE certification is not enforced under German law, punishment is severe should electrical shock or fire occur; therefore, it is, in fact, like an enforcement. TUV (Technischer Uberwachungs-Verein) TUV is a civilian, non-profit, independent organization that has its roots in the German Boiler Surveillance Association, which was started in 1875 for the purpose of preventing boiler accidents. A major characteristic of TUV is that it exists as a combination of 14 independent organizations (TUV Rheinland, TUV Bayern, etc.) throughout Germany. TUV carries out inspection on a wide variety of industrial devices and equipment, and has been entrusted to handle electrical products, as well, by the government. TUV inspection and certification is based mainly on the VDE standard. TUV certification can be obtained from any of the 14 TUVs throughout Germany and has the same effectiveness as obtaining VDE certification. 4. Shipping Standards (1) Lloyd's Register of Shipping Standards from the Lloyd's Register shipping association based in England. These standards are safety standards for environmental testing of the temperature and vibration tolerances of electrical components used for UMS (unmanned machine rooms in marine vessels) applications. These standards have become international standards for control equipment in all marine vessel applications. No particular action is taken to display the conformation to these standards on the products. Fig. 6 183 5. Pilot Duty One of the specifications in the "UL508 Industrial Control Equipment" regulations at UL (Underwriters Laboratories Inc.), has to do with the grade of contact control capacity by NEMA (National Electrical Manufacturers Association) standards. By obtaining both UL and CSA approval for this grade, the product becomes authorized publicly. Pilot Duty A300 AC applied Electrification voltage current [V] [A] 120 10 240 [VA] Input power [A] 60 30 Breaker power [A] 6 3 During input 7,200 7,200 Input power [A] 30 15 Breaker power [A] 3 1.5 During input 3,600 3,600 Input power [A] 15 7.5 Breaker power [A] 1.5 0.7 During input 1,800 1,800 During breaker 720 720 Pilot Duty B300 AC applied Electrification voltage current [V] [A] 120 5 240 [VA] During breaker 360 360 Pilot Duty C300 AC applied Electrification voltage current [V] [A] 120 2.5 240 184 [VA] During breaker 180 180 FOREIGN SPECIFICATIONS TIMER Products Name PM4S PM4H-A PM4H-S PM4H-M PM4H-SD PM4H-W PM4H-F Recognized by UL Standards File No. Certified by CSA Standards File No. 5A250VAC PILOT DUTY C300 E43149 (C-UL) 5A250VAC PILOT DUTY C300 E122222 5A250VAC PILOT DUTY C300 LR39291 5A250VAC PILOT DUTY C300 E122222 3A250VAC PILOT DUTY C300 LR39291 3A250VAC PILOT DUTY C300 E122222 5A250VAC PILOT DUTY C300 E122222 (C-UL) 5A250VAC PILOT DUTY C300 100mA30VDC QM4H S1DXM- 2C A/M (Relay output) 4C Certified rating -- -- 98/10004 5A 250V AC (resistive) 98/10004 3A 250V AC (resistive) -- -- Remarks 100mA30VDC 5A250VAC PILOT DUTY C300 E43149 (C-UL) 5A250VAC PILOT DUTY C300 -- -- E59504 7A1/6HP125VAC 7A1/6HP250VAC 3A30VDC PILOT DUTY C300 LR39291 7A1/6HP125VAC 7A1/6HP250VAC 3A30VDC PILOT DUTY C300 88/10123 125V3.5A (COS ]0.4) 250V2A (COS ]0.4) 250V7A(COS ]1.0) "The standard models conform to the UL/CSA standard. (To place an order, you do not need to specify the tailing character 9 of each item number.)" The standard models conform to the LLOYD standard. E59504 5A250VAC LR39291 5A250VAC 88/10123 250V5A (COS ]1.0) "The standard models conform to the UL/CSA standard. (To place an order, you do not need to specify the tailing character 9 of each item number.)" E122222 7A125VAC 6A250VAC 1/6HP125, 250VAC PILOT DUTY C300 LR39291 7A125VAC 6A250VAC 1/6HP125, 250VAC PILOT DUTY C300 98/10004 7A 250V AC (resistive) 5A250VAC 1/10HP125, 250VAC PILOT DUTY C300 LR39291 5A250VAC 1/10HP125, 250VAC PILOT DUTY C300 98/10004 5A 250V AC (resistive) 7A125VAC 6A250VAC 1/6HP125, 250VAC PILOT DUTY C300 LR39291 7A125VAC 6A250VAC 1/6HP125, 250VAC PILOT DUTY C300 98/10004 7A 250V AC (resistive) 5A250VAC 1/10HP125, 250VAC PILOT DUTY C300 LR39291 5A250VAC 1/10HP125, 250VAC PILOT DUTY C300 98/10004 5A 250V AC (resistive) 5A250VAC PILOT DUTY C300 E59504 (C-UL) -- -- E122222 E122222 2C E122222 4C PM5S-A PM5S-S PM5S-M File No. E43149 PMH MHP MHP-M Lloyd's Register Standards Certified rating E43149 LT4H LT4H-L LT4H-W S1DX (Relay output) Recognized rating E59504 (C-UL) 5A250VAC PILOT DUTY C300 Accessories Products Name Recognized by UL Standards File No. E59504 Common mounting tracks for timers E148103 Recognized rating 10A250VAC AT8-RFD (AT78039) 7A250VAC AT8-DF8L (ATA48211) 8P cap was an approved as an option. AD8-RC (AD8013) Certified by CSA Standards File No. LR39291 AT8-DF8K (ATC180031) E148103 AT8-DF11K (ATC180041) (C-UL) AT8-R8K (AT78041) AT8- R11K (AT78051) Certified rating Lloyd's Register Standards File No. Certified rating 10A250VAC AT8-RFD (AT78039) 7A250VAC AT8-DF8L (ATA48211) 8P cap was an approved as an option. AD8-RC (AD8013) -- -- AT8-DF8K (ATC180031) AT8-DF11K (ATC180041) AT8-R8K (AT78041) AT8- R11K (AT78051) -- -- Remarks 185 FOREIGN SPECIFICATIONS Counters Product name LC4H LC4H-L LC4H-S UL recognized File No. Approved ratings E122222 5A250V AC PILOT DUTY C300 E122222 3A250V AC PILOT DUTY C300 E122222 E122222 CSA certified File No. E122222 (C-UL) 5A250V AC PILOT DUTY C300 E122222 (C-UL) 3A250V AC PILOT DUTY C300 24-240 V AC/DC 4.5-30 V DC 3 V DC E122222 (C-UL) 24-240 V AC/DC 4.5-30 V DC 3 V DC 24-240 V AC/DC 4.5-30 V DC 3 V DC E122222 (C-UL) 24-240 V AC/DC 4.5-30 V DC 3 V DC 100mA 30V DC LC4H-W 100mA 30V DC 100mA 30V DC LC2H LC2H preset Remarks Approved ratings 100mA 30V DC Hour Meters Product name TH13 * TH23 series UL recognized File No. Approved ratings CSA certified File No. Remarks Approved ratings E42876 115-120, 220, 240V AC LR39291 115-120, 220, 240V AC * For UL-recognized and CSA-certified products, specify "U" at the end of the part No. E42876 12, 24, 48, 100, 110, 115-120, 200, 220, 240V AC LR39291 12, 24, 48, 100, 110, 115-120, 200, 220, 240V AC * Only black panel-mounting type UL-recognized and CSA-certified. * For UL-recognized and CSA-certified products, specify "U" at the end of the product code. * Panel-mounting silver type not UL-recognized nor CSA-certified. E42876 12, 24, 48, 100, 110, 115-120, 200, 220, 240V AC LR39291 12, 24, 48, 100, 110, 115-120, 200, 220, 240V AC * Standard products are UL-recognized and CSA-certified. E122222 24-240 V AC/DC 4.5-30 V DC 3 V DC E122222 (C-UL) 24-240 V AC/DC 4.5-30 V DC 3 V DC * Standard products are UL-recognized and CSA-certified. E122222 24-240 V AC/DC 4.5-30 V DC 3 V DC E122222 (C-UL) 24-240 V AC/DC 4.5-30 V DC 3 V DC * Standard products are UL-recognized and CSA-certified. E42876 12 V DC 24 V DC E42876 (C-UL) 12 V DC 24 V DC * Standard products are UL-recognized and CSA-certified. TH14 * TH24 series TH63 * 64 series LH2H LH2H preset TH8 series Accessories Product name UL-recognized File No. CSA certified File No. Rating LR26550 10A250V AC AT8-RFD (AT78039) 7A250V AC AT8-DF8L (ATA48211) 8P cap UL-listed as option. AD8-RC(AD8013) E59504 10A250V AC AT8-RFD (AT78039) 7A250V AC AT8-DF8L (ATA48211) 8P cap CSA-certified as option. AD8-RC (AD8013) E148103 AT8-DF8K (ATC180031) E148103 AT8-DF11K (ATC180041) (C-UL) AT8-R8K (AT78041) AT8- R11K (AT78051) Common counter fixtures 186 Rating AT8-DF8K (ATC180031) AT8-DF11K (ATC180041) AT8-R8K (AT78041) AT8- R11K (AT78051) Remarks CE MARKINGS OVERVIEW Counter, Hour Meter conforming to EN/IEC standards CE markings and EC directives The Timer, Counter, Hour Meter shown below conform to both EN and IEC standards, and may display the CE markings. The world's largest single market, the European Community (EC) was born on 1 January 1993 (changing its name to EU in November 1993. It is now always expressed as EU, apart from EC directives.) EU member country products have always had their quality and safety guaranteed according to the individual standards of each member country. However, the standards of each country being different prevented the free flow of goods within the EU. For this reason, in order to eliminate non-tariff barriers due to these standards, and to maximize the merits of EU unification, the EC directives were issued concomitant to the birth of the EU. The EN standards were established as universal EU standards in order to facilitate EU directives. These standards were merged with the international IEC standards and henceforth reflect the standards in all countries. Also, the CE markings show that products conform to EC directives, and guarantee the free flow of products within the EC. Product classification Timers Time Switch Counters Hour Meters Product name EMC directives Low-voltage directives LT4H LT4H-L LT4H-W PM4H S1DX S1DXM-A/M PM4S PM5S QM4H A-TB72 A-TB72Q LC4H LC4H-L LC4H-S LC4H-W LC2H LC2H preset TH13 TH23 TH14 TH24 TH40 TH50 TH63 TH64 LH2H LH2H preset TH8 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61000-6-4/EN 61000-6-2 EN 61812-1 EN 61812-1 EN 61812-1 EN 61812-1 EN 61812-1 EN 61812-1 EN 61812-1 EN 61812-1 EN 61010-1 EN 61812-1 EN 61812-1 EN 61812-1 EN 61812-1 EN 61812-1 EN 61812-1 EN 61010-1 -- EN 61010-1 EN 61010-1 EN 61010-1 EN 61010-1 EN 61010-1 EN 61010-1 EN 61010-1 EN 61010-1 EN 61010-1 -- -- What are EN standards? An abbreviation of Norme Europeenne (in French), and called European Standards in English. Approval is by vote among the CEN/CENELEC member countries, and is a unified standards limited to EU member countries, but the contents conform to the international ISO/IEC standards. If the relevant EN standard does not exist, it is necessary to obtain approval based on the relevant IEC standard or, if the relevant IEC standard does not exist, the relevant standard from each country, such as VDE, BS, SEMKO, and so forth. Appropriate EC directives for control equipment products The main EC directives that are to do with machinery and electrical equipment are the machinery directive, the EMC directive, the low voltage directive, and the telecom directive. Although these directives have already been issued, the date of their enactment is different for each one. The machinery directive was 1 January 1995. The EMC directive was 1 January 1996, and the low voltage directive was enacted from 1 January 1997. The telecom directive was established by the separate CTR (Common Technology References.) 187