PM4HW-H-DC12V

PM4H-W DIN48 SIZE ANALOG MULTI-RANGE CYCLIC TWIN TIMERS PM4H-W Analog Timers UL File No.: E122222 CSA File No.: LR39291 Features 48 1.890 48 1.890 62.5 2.461 mm inch • A single twin timer unit that repeats (variable) ON/OFF. • Multiple ranges with a 0.1 s to 500 h time specification on a single unit. • The output ON/OFF operation is indicated by red and green LED’s. It’s easy to check the operation at a glance. • The AC free power supply and shorter body make it easier to use. • A new screw terminal type has been added to the conventional pin type. Wiring can be done easily with a screwdriver. • Compliant with UL, CSA, CE and LLOYD. Specifications Type Item Rated operating voltage Rated frequency Rated power consumption Rating Rated control capacity Operation mode Time range Operation time fluctuation Time Setting error accuracy Note:1) Voltage error Temperature error Contact arrangement Contact resistance (Initial value) Contact Contact material Mechanical (contact) Life Electrical (contact) Allowable operating voltage range Insulation resistance (Initial value) Electrical function Breakdown voltage (Initial value) Min. power off time Max. temperature rise Vibration resistance Mechanical function Operating condition Others Notes: Shock resistance Functional Destructive Functional Destructive Ambient temperature Ambient humidity Atmospheric pressure Ripple factor (DC type) Protective construction Weight PM4H-W 100 to 240V AC, 48 to 125V DC, 12V DC, 24V AC/DC 50/60Hz common (AC operating type) Approx. 10VA (100 to 240V AC) Approx. 2.5VA (24V AC) Approx. 1.5W (12V DC, 24V DC, 48 to 125V DC) 5A 250V AC (resistive load) Cyclic (OFF-start/Twin operation) 1s to 500h 16 time ranges switchable (T1, T2 time setting individually)
0.3% (power off time change at the range of 0.3s to 1h)
5% (Full-scale value)
0.5% (at the operating voltage changes between 85 to 110%)
2% (at 20C ambient temp. at the range of –10 to +50C +14 to 122F) Timed-out 2 Form C Max. 100m (at 1A 6V DC) Silver alloy 2107 5 10 (at rated control capacity) 85 to 110% of rated operating voltage (at 20C coil temp.) Between live and dead metal parts Between input and output Min. 100M (At 500V DC) Between contacts of different poles Between contacts of same pole 2,000Vrms for 1 min Between live and metal parts 2,000Vrms for 1 min Between input and output 2,000Vrms for 1 min Between contacts of different poles 1,000Vrms for 1 min Between contacts of same pole 300ms 55C 131F 10 to 55Hz: 1 cycle/min double amplitude of 0.25mm (10min on 3 axes) 10 to 55Hz: 1 cycle/min double amplitude of 0.375mm (1h on 3 axes) Min. 98m/s2 (4 times on 3 axes) Min. 980m/s2 (5 times on 3 axes) –10 to +50C +14 to +122F 30 to 85%RH (non-condensing) 860 to 1,060hPa 20% IP65 on front panel (using rubber gasket ATC18002) 120g 4.233 oz (Pin type), 130g 4.586 oz (Screw terminal type) 1) Unless otherwise specified, the measurement conditions at the maximum scale time standard are specified to be the rated operating voltage (within 5% ripple factor for DC), 20°C 68°F ambient temperature, and 1s power off time. 2) For the 1s range, the tolerance for each specification becomes ±10ms. 3) As internal components may become worn when using continuous conduction, the product should be replaced periodically. 09/2009 50 PM4H-W Time range All types of PM4H-W timer have multi-time range. 16 time ranges are selectable. 1s to 500h (Max. range) is controlled. Time unit sec min hrs 10h 0.1s to 1s 0.1 min to 1 min 0.1h to 1h 1.0h to 10h Scale 1 5 Control time range 10 50 0.5s to 5s 0.5 min to 5 min 0.5h to 5h 5h to 50h 1.0s to 10s 1.0 min to 10 min 1.0h to 10h 10h to 100h 5s to 50s 5 min to 50 min 5h to 50h 50h to 500h Operating mode Type Contact arrangement Protective structure Time range Rated Operating voltage 100 to 240V AC 48 to 125V DC IP65 24V AC/DC Cyclic (OFF-start, Twin) PM4H-W Twin timer Relay Timed-out 2 Form C 12V DC 16 selectable ranges (1s to 500h) 100 to 240V AC 48 to 125V DC IP50 24V AC/DC 12V DC Terminal type 8 pins Screw terminal 8 pins Screw terminal 8 pins Screw terminal 8 pins Screw terminal 8 pins Screw terminal 8 pins Screw terminal 8 pins Screw terminal 8 pins Screw terminal Analog Timers Product types Part number PM4HW-H-AC240VW PM4HW-H-AC240VSW PM4HW-H-DC125VW PM4HW-H-DC125VSW PM4HW-H-24VW PM4HW-H-24VSW PM4HW-H-DC12VW PM4HW-H-DC12VSW PM4HW-H-AC240V PM4HW-H-AC240VS PM4HW-H-DC125V PM4HW-H-DC125VS PM4HW-H-24V PM4HW-H-24VS PM4HW-H-DC12V PM4HW-H-DC12VS Terminal layouts and wiring diagrams Pin Type Screw terminal type Cyclic timed-out relay contact: 2C N.O. 4 5 3 2 (–) Cyclic timed-out relay contact: 2C N.C. N.C. N.C. N.O. 6 N.O. 7 8 9 10 N.C. N.O. 11 6 7 1 2 3 4 5 1 8 Operating voltage (+) (+) Operating voltage (–) mm inch Toletance: p0.5 p.020 Dimensions • Screw terminal type: M3.5 • Pin type 48 1.890 6.0 17.0 .236 .670 48 1.890 62.5 2.461 …41 …1.614 48 1.890 ;44.5 1.752 48 1.890 …41 …1.614 6.0 17.0 .236 .670 66.5 2.618 14.5 .571 ;44.5 ;1.752 Operation Power supply T1 T2 T1 Time-delay contact (N.O. contact) Time-delay contact (N.C. contact) Output ON-OFF indicator : : T1: T2: Output OFF indicator (green) Output ON indicator (orange) OFF set time ON set time 09/2009 51 Analog Timers PM4H SERIES MODES AND TIME SETTING 1. Operation method 1) Operation mode setting [PM4H-A type] 8 operation modes are selectable with operation mode selector. Turn the operation mode selector with screw driver. Operation mode is shown up through the window above the mode selector. The marks are ON , FL , FO , OF1 , SF , OS , OF2 , OC . Turn the mode selector to the mark until you can check by clicking sound. Confirm the mode selector position if it is correct. If the position is not stable, the timer might mis-operate. 2) Time range setting [PM4H series common] 16 time ranges are selectable between 1s to 500h. Turn the time range selector with the screw driver. Clockwise turning increases the time range, and Counter-clockwise turning decrease the time range. Confirm the range selector position if it is correct. If the position is not stable, the timer might mis-operate. 2. How to use “Set ring” [PM4H series common] 2) Time range setting 1) Fixed time setting Example: Time range 20s to 30s. Set the desired time and put 2 set rings together. / Shorter time value setting Insert the rings into stopper to fix the Set the dial to 20s. time. Place the stop ring at the right side of Stopper boss stopper. Stopper 3) Time setting [common] To set the time, turn the set dial to a desired time within the range. Instantaneous output will be on when the dial is set to “0”. When the instantaneous output is used, the dial should be set under “0” range. (Instantaneous output area) When power supply is on, the time range, setting time and operation mode cannot be changed. Turn off the power supply or a reset signal is applied to set the new operation mode. If the position is not stable, the timer might mis-operate. 0 Longer time value setting Set the dial to 30s. Place the stop ring at the left side of stopper. Set range Shorter time value Longer time value Stopper boss Set ring (2 pcs) ATC18001 (sold separately) Stop ring 20 Set dial 0 30 0 SEC SEC Note) The stoppers for the lower limit setting set ring and the upper limit setting set ring face the opposite directions. Applicable standard (PM4H series common) 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 III 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) 09/2009 52 PRECAUTIONS IN USING THE PM4H SERIES Contact input (or non-contact input) No good 7 10 2 Operating voltage Fig. B 6 5 Good Contact input (or non-contact input) 7 10 2 Operating voltage If the circuits is connected as in Fig. C, the internal circuits must be broken. Be sure to connect the circuit as in Fig. D. Fig. C 2. Input signal conditions (PM4H-A type) 1) Connection of contact input (Pin type example 10 6 T No good Reset input 2 Fig. D Stop input 6 5 Start input Fig. A 3) Terminal 0-4 (screw terminal x-c) should be connected as the start input. Connect terminals 0-5 (screw terminal x-v) for reset signal input. Connect terminals 0-3 (screw terminal x-b) for stop signal input. Be sure not to connect with other terminals and apply excessive voltage. The internal circuit will be damaged. 4) The input wiring other than the power supply circuit should avoid these conditions, high-voltage wiring and parallel wiring with power wire. Wire in short with using the shielding wire or metal wiring tube. 5) For start, reset and stop input, use gold-plated contact with high reliability. Since contact bouncing causes errors in the start, use an input contact less bounce time. 6) Keep the minimum signal input time over 0.05 s. 5 6 7 2 10 6 T Good 2 2) When one input signal is simultaneously applied to more than one timer, be sure to avoid the wiring shown in Fig. E. Otherwise, the short-circuit current will flow and cause damage. Be sure to align the polarity of the power supply as shown in Fig. F. Fig. E Use gold-plated contacts with high-reliability. The bounce time at the contacts causes errors in the timer operation time. Accordingly, use start input contact whose bounce time is short. The resistance when shorted should be less than 1k7, and when open resistance should be more than 100k7. For the screw terminal type, connect the terminal x to the each input signal. 2) Connection of non-contact input (Pin type example) (open-collector) Input terminal 2 10 Fig. F Contact or non-contact input Input terminal 2 10 Good Input terminal 2 10 Power supply Stop input Power supply Start input No good 10 Reset input Input terminal 2 5 6 7 2 Apply the open-collector connection. The characteristics of the transistor used must be VCEO=10V or more, IC=10mA or more, and ICBO=6μA or less. Additionally, the input impedance must be 1k7 or less, and the residual voltage must be 0.6V or less. For the screw terminal type, connect the terminal x to the each input signal. 3) Connection of non-contact input (Pin type example) (voltage input) Internal circuit with photoelectric sensor, etc. (The start input is turned on.) 1mA 5 6 7 Q 2 [Example of start input] Even if the open collector is not used, input is also possible from the non-contact circuit of 6 to 30V DC. In this case, the start input is turned on when the signal is turned from H to L. The residual voltage must be 0.6V or less when Q is on. On the AC type, an insulated transformer is required as the power supply for the photoelectric sensor, etc. (power supply for the input devices). Note: Keep the minimum input signal time of each signal to 0.05s or more. 3. Checking the contacts before use (PM4H-F only) When the power ON time is less than the minimum power application time, the contacts may remain in an ON state, so the state of the contacts should be checked before use. When the contacts are in an ON state, activating them once will return them to their normal state (the OFF state after time-out). (Be aware that relay characteristics may result in the contacts being in that same ON state if exposed to excessive vibration and impact during transport.) 4. Time setting To set the time, turn the set dial to a desired time within the range. Instantaneous output will be on when the dial is set to “0”. When the instantaneous output is used, the dial should be set under “0” range. (Instantaneous output area) Note) When power supply is on, the time range, setting time and operation mode cannot be changed. Turn off the power supply or a reset signal is applied to set the new operation mode. If the position is not stable, the timer might mis-operate. 09/2009 53 Analog Timers 1. Input connections (PM4H-A type) 1) Be sure not to use terminal 8 as the common terminal of the input signal as shown in Fig. A. Otherwise, the internal circuit of the timer may be damaged. Use terminal 0 as the common terminal as shown in Fig. B. PRECAUTIONS IN USING THE PM4H SERIES Analog Timers 5. Superimposed surge of power supply (PM4H series common) For the superimposed surge of power supply, the standard waveform is taken as the standard value for surge-proof voltage. If external surge occurs exceeding the specified value, the internal circuit may break down. In this case, use a surge Operation voltage 100 to 240V AC 100 to 120V AC 200 to 240V AC 48 to 125V DC 12V DC, 24V DC 24V AC/DC Surge voltage 4,000V 500V absorption element. The positive and negative voltages are applied each five times between the power pins. 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. Acquisition of CE marking Please abide by the conditions below when using in applications that comply with EN61812-1. 1) Overvoltage category III, pollution level 2 2) This timer employs a power supply without a transformer, so the power and input signal terminals are not insulated. (PM4H-A only) (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. 3) The load connected to the output contact should have basic insulation. This timer is protected with basic insulation and can be double-insulated to meet EN/IEC requirements by using basic insulation on the load. 4) Please use a power supply that is protected by an overcurrent protection device which complies with the EN/IEC standard (example: 250 V 1 A fuse, etc.). 09/2009 54 5) You must use a terminal socket or socket for the installation. Do not touch the terminals or other parts of the timer when it is powered. When installing or un-installing, make sure that no voltage is being applied to any of the terminals. 6) Do not use this timer as a safety circuit. For example when using a timer in a heater circuit, etc., provide a protection circuit on the machine side.