VDE TV-, 3 AMP ( Form A) Power Relay RELAYS Form A Plug-in type Form A type also available with 48A contact capacity FEATURES. Excellent resistance to contact welding Owing to the pre-tension and kick-off mechanism, the Form A passes TV- and the 2 Form A passes TV-. 2. High-capacity and long life Contact arrangement Form A type 2 Form A type Contact capacity 3A 2A Electrical life (at 2 cpm) 2 Mechanical life (at 8 cpm) DC type: 7, AC type: 3. Excellent surge resistance Between contacts and coil, the surge is more than, V (when surge waveform accords with JEC-22-98). 4. Compatible with all major safety standards UL, CSA, VDE and TÜV certified TYPICAL APPLICATIONS. Office equipment Copiers, package air conditioners, automatic vending machines. 2. Industrial equipment Machine tools, molding equipment, wrapping machines, food processing equipment, etc. 3. Home appliances Air conditioners, microwave ovens, televisions, stereo systems, water heaters and air heating equipment. Refer to data sheet, starting on page 9. Type Insulation gap Distance between contacts* Breakdown Between open contacts Between contact and coil Form A and 2 Form A: Min. 3 mm Form A, 2 Form A Min. 8 mm 2, Vrms for min., Vrms for min. PC board type: Min. 2. mm CLASSIFICATION Type PC board Plug-in TM Screw terminal Operating funciton Single side stable Contact arrangement Form A Form A 2 Form A Form A 2 Form A Form A 2 Form A PRE-TENSION AND KICK-OFF MECHANISM. Pre-tension mechanism Before operation, the moving spring is pre-tensioned by being held down by a moving plate. As a result, at the ON moment, with little follow, contact pressure is ensured with low bounce. At operation 2. Kick-off mechanism Even when contact welding has occurred, at the moment of return, the moving plate taps the moving spring (kick-off) and, in effect, works to tear the weld apart, thus improving resistance to welding. At return relay (with pre-tension) Moving plate Pre-tension Moving plate Gap Kick-off Contact pressure Contact follow stroke Ordinary relay (without pre-tension) Direction of operation Form A 2 Form A 3 A 277 V AC, Electrical life 2 A 277 V AC, 3 A 2 V AC, 2 2 A 2 V AC, 2 TV rating TV- TV- ds_c_en_he: 9D
ORDERING INFORMATION Relay Contact arrangement a: Form A () 2a: 2 Form A () Pick-up N: 7% of nominal TYPES. PC board type ( Form A, DC coil) (Single side stable) Coil V DC 2V DC 24V DC 48V DC V DC V DC 2. Plug-in type (Single side stable) Type DC type AC type 3. TM type (Single side stable) Type DC type AC type Terminals Nil: Plug-in type S: Screw terminal type Q: TM type P: PC board type Coil DC, 2, 24, 48,, V AC 2, 24, 48, (/2), 2 (2/24) V Form A Packing quantity Part No. Carton Case an-p-dcv an-p-dc2v an-p-dc24v an-p-dc48v 2 pcs. pcs. an-p-dcv an-p-dcv Coil Form A 2 Form A Packing quantity Part No. Part No. Carton Case V DC an-dcv 2aN-DCV 2V DC an-dc2v 2aN-DC2V 24V DC an-dc24v 2aN-DC24V 48V DC an-dc48v 2aN-DC48V 2 pcs. pcs. V DC an-dcv 2aN-DCV V DC an-dcv 2aN-DCV 2V AC an-ac2v 2aN-AC2V 24V AC an-ac24v 2aN-AC24V 48V AC an-ac48v 2aN-AC48V 2 pcs. pcs. /2V AC an-acv 2aN-ACV 2/24V AC an-ac2v 2aN-AC2V Coil Form A 2 Form A Packing quantity Part No. Part No. Carton Case V DC an-q-dcv 2aN-Q-DCV 2V DC an-q-dc2v 2aN-Q-DC2V 24V DC an-q-dc24v 2aN-Q-DC24V 48V DC an-q-dc48v 2aN-Q-DC48V 2 pcs. pcs. V DC an-q-dcv 2aN-Q-DCV V DC an-q-dcv 2aN-Q-DCV 2V AC an-q-ac2v 2aN-Q-AC2V 24V AC an-q-ac24v 2aN-Q-AC24V 48V AC an-q-ac48v 2aN-Q-AC48V 2 pcs. pcs. /2V AC an-q-acv 2aN-Q-ACV 2/24V AC an-q-ac2v 2aN-Q-AC2V 2 ds_c_en_he: 9D
4. Screw terminal type (Single side stable) Type DC type AC type Coil Form A 2 Form A Packing quantity Part No. Part No. Carton Case V DC an-s-dcv 2aN-S-DCV 2V DC an-s-dc2v 2aN-S-DC2V 24V DC an-s-dc24v 2aN-S-DC24V 48V DC an-s-dc48v 2aN-S-DC48V pcs. pcs. V DC an-s-dcv 2aN-S-DCV V DC an-s-dcv 2aN-S-DCV 2V AC an-s-ac2v 2aN-S-AC2V 24V AC an-s-ac24v 2aN-S-AC24V 48V AC an-s-ac48v 2aN-S-AC48V pcs. pcs. /2V AC an-s-acv 2aN-S-ACV 2/24V AC an-s-ac2v 2aN-S-AC2V Note: The TM type of the screw terminals are also available. RATING. Coil data ) AC coils Coil 2) DC coils Pick-up (at 2 C 8 F) Drop-out (at 2 C 8 F) Nominal operating current [ %] (at 2 C 8 F) 38mA Nominal operating power 2V AC.7VA 24V AC 48V AC /2V AC 7%V or less of nominal (Initial) %V or more of nominal (Initial) 74mA 39mA 8.7 to 2.mA.8VA.9VA.9 to 2.7VA 2/24V AC 9. to.8ma.8 to 2.VA Coil Pick-up (at 2 C 8 F) Drop-out (at 2 C 8 F) Nominal operating current [ %] (at 2 C 8 F) Coil resistance [ %] (at 2 C 8 F) Nominal operating power V DC 32mA 8.8.92W 2V DC ma 7.92W 24V DC 7%V or less of %V or more of 8mA 3.92W nominal nominal 48V DC (Initial) (Initial) 4mA,2.92W V DC 9mA,2.92W V DC 8mA,3.92W Max. allowable (at 2 C 8 F) %V of nominal Max. allowable (at C 3 F) %V of nominal ds_c_en_he: 9D 3
2. Specifications Characteristics Item Specifications Arrangement Form A 2 Form A Contact Initial contact resistance, max Max. m (By drop V DC A) Contact material AgSnO2 type Nominal switching capacity (resistive load) 3A 277V AC 2A 277V AC Max. switching power 8,3VA,92VA Rating Max. switching 277V AC, 3V DC Max. switching current 3A 2A Nominal operating power DC:.92W, AC:.7 to 2.7VA Min. switching capacity (Reference value) * ma V DC Insulation resistance (Initial) Min.,M (at V DC) Measurement at same location as Initial breakdown section. Breakdown Between open contacts 2, Vrms for min (Detection current: ma.) (Initial) Electrical characteristics Mechanical characteristics Expected life Conditions Unit weight Surge breakdown *2 (between contact and coil) Temperature rise Operate time (at nominal ) Release time (at nominal ) Shock resistance Vibration resistance * This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. *2 Wave is standard shock of.2 s according to JEC-22-98 *3 Refer to. Usage, Storage and Transport Conditions in AMBIENT ENVIRONMENT section in Relay Technical Information. REFERENCE DATA Form A Type Between contact sets 4, Vrms for min (Detection current: ma.) Between contact and coil, Vrms for min (Detection current: ma.) Functional Destructive Mechanical Electrical (resistive load) (at 2 cpm) Min.,V (initial) DC: Max. C (at C) (By resistive method), AC: Max. C (at C) (By resistive method) Max. 3ms (excluding contact bounce time) DC: Max.ms (excluding contact bounce time, without diode), AC: Max. 3ms (excluding contact bounce time) Min. 98 m/s 2 (Half-wave pulse of sine wave: ms; detection time: s.) Min. 98 m/s 2 (Half-wave pulse of sine wave: ms.) Functional to Hz at double amplitude of mm (Detection time: s.) Destructive to Hz at double amplitude of. mm DC: Min. 7 (at 8 cpm), AC: Min. (at 8 cpm) Conditions for operation, transport and storage *3 Conditions for operation, transport and storage* 3 Min. (3A 277V AC) Min. 2 (3A 2V AC) Min. (2A 277V AC) Min. 2 (2A 2V AC) Ambient temperature: C to + C 8 F to +3 F Humidity: to 8% R.H. (Not freezing and condensing at low temperature), Air pressure: 8 to kpa 2 cpm (at max. rating) PC board type: approx. 8g 2.82oz, Plug-in type/tm type: approx. 9g 3.7oz, Screw terminal type: approx. 2g 4.23oz. Maximum switching power 2. Life curve 3. Coil temperature rise (DC type) Measured portion: Inside the coil Contact current: 3 A, 7 AC resistive 3 2 DC resistive 2 V AC resistive 3 V DC resistive 4 2 C 4 C C Contact current, A. No. of operations, 4 Temperature rise, C 3 2 3, Contact, V 2 2 3 3 Contact current, A 2 Coil applied, %V 4 ds_c_en_he: 9D
4. Ambient temperature characteristics Tested sample: an-ac2v, pcs. 3 - -2 Rate of change, % 2 Pick-up x -- Drop-out 2 4 8 Ambient - temperature, C -2-3 2 Form A Type. Maximum switching power 2. Life curve 3. Coil temperature rise (DC type) Measured portion: Inside the coil Contact current: 3 A Contact current, A 3 2. DC resistive AC resistive, No. of operations, 4 2 V AC resistive 3 V DC resistive Temperature rise, C 7 4 3 2 2 C 4 C C 3, Contact, V 2 2 3 3 Contact current, A 2 Coil applied, %V 4. Ambient temperature characteristics Tested sample: 2aN-AC2V, pcs. - -2 Rate of change, % 2 Pick-up 2 4 8 Ambient - temperature, C x - x - Drop-out -2-3 DIMENSIONS(mm inch) Interested in CAD data? You can obtain CAD data for all products with a CAD Data mark from your local Panasonic Electric Works representative.. PC board type Form A CAD Data External dimensions Schematic (Bottom view) PC board pattern (Bottom view) 24 4.94 38..49 3.3.429..2 4.7.8 4.7 33.299 4.7.8 32.2 8.4.33 8..732-2 dia. hole -.79 dia. General tolerance:.3.2 Tolerance:..4 ds_c_en_he: 9D
2. Plug-in type Form A CAD Data External dimensions 2-4. dia. 2-.77 dia. 3.4.433 Schematic (Bottom view) 4 4.8.3.33 8.4.2.44.3.2 4.7.99 #2 tab terminal R4 R.7 33.299.4.49 Panel cutout 2-4.±. dia. 4±. 2-.77±.4 dia..7±.4 Tolerance:..4 3..38 3.378.8.3 General tolerance:.3.2 2 Form A CAD Data External dimensions 2-4. dia. 2-.77 dia. 3.4.433 4.4.7 Schematic (Bottom view) 2 3 4.8.3.33 8.4.2.44.3.2 2 3 4 4.7.99 #2 tab terminal R4 R.7 33.299.4.49 Panel cutout 2-4.±. dia. 4±. 2-.77±.4 dia..7±.4 Tolerance:..4 3..38 3.378.8.3 General tolerance:.3.2 ds_c_en_he: 9D
3. TM type 4..77.33.2.44.8.3.3.2 CAD Data External dimensions Form A 2 Form A 47..874 3.4.433 4 4.7.99 2.32 #2 tab terminal R4 R.7 33.299.4.49 4..77.33.2.44.8.3.3.2 47..874 3.4.433 4.4.7 2 3 4 4.7.99 2.32 #2 tab terminal R4 R.7 33.299.4.49 Schematic (Bottom view) Form A 2 Form A 2-4.±. dia. 2-.77±.4 dia. 4 Panel cutout 2 3 4 47.±..874±.4 3..38 3.378.8.3 3..38 3.378.8.3 Tolerance:..4 General tolerance:.3.2 4. Screw terminal type Form A CAD Data External dimensions M4. M.77. 2.8 4..7 4.4.7 Schematic (Bottom view) 4 2-4. dia. 2-.77 dia. R4 R.7 7..89 2..84.. Panel cutout 2-4.±. dia. 4±. 2-.77±.4 dia..7±.4 M3. M.38 33..39..99 7..29 Tolerance:..4 3..38 44..72.8.3 General tolerance:.3.2 ds_c_en_he: 9D 7
2 Form A CAD Data External dimensions M4. M.7 2-4. dia. 2-.77 dia. M3. M.38. 2.8 4..7 3.4.433 4.4.7 R4 R.7 33..39..99 7..89 2..84.. 7..29 Schematic (Bottom view) 2-4.±. dia. 2-.77±.4 dia. 2 3 4 Panel cutout 4±..7±.4 Tolerance:..4 3..38 44..72.8.3 General tolerance:.3.2 MOUNTING METHOD. Plug-in type 2. Screw terminal type 3. Allowable installation wiring size for screw terminal types and terminal M4 screw M4 screw sockets Washer Faston No. 2 Washer Due to the UP terminals, it is possible to either directly connect the wires or use crimped terminal. NOTES. The dust cover should not be removed since doing so may alter the characteristics. 2. Avoid use under severe environmental conditions, such as high humidity, organic gas or in dust, oily locations and locations subjected to extremely frequent shock or vibrations. 3. When mounting, use spring washers. Optimum fastening torque ranges from 49 to 8. N m ( to 7 kgf cm). 4. Firmly insert the receptacles so that there is no slack or looseness. To remove a receptacle, 9. to 39.2 N (2 to 4 kg) of pulling strength is required. Do not remove more than one receptacle at one time. Always remove one receptacle at a time and pull it straight outwards.. When using the AC type, the operate time due to the in-rush phase is 2 ms or more. Therefore, it is necessary for you to verify the characteristics for your actual circuit.. When using the push-on blocks for the screw terminal type, use crimped terminals and tighten the screw-down terminals to the torque below. M4. screw: 47 to. N cm ( to 7 kgf cm) M4 screw: 7. to 37 N cm (2 to 4 kgf cm) M3. screw: 78.4 to 98 N cm (8 to kgf cm) For Cautions for Use, see Relay Technical Information. 8 ds_c_en_he: 9D
Ideal for Solar inverter Compact size, Form A 48A Power Relay RELAYS PV Type VDE FEATURES 48 A current at 2 V AC achieved in compact size (L: 33 W: 38 H: 3.3 mm L:.299 W:.49 H:.429 inch) Due to improved conduction efficiency, wide terminal blades are used. High insulation and, V surge breakdown (between contacts and coil) achieved. Conforms to various safety standards UL, C-UL and VDE TYPICAL APPLICATIONS Photovoltaic power generation systems (Solar inverter) ORDERING INFORMATION Contact arrangement a: Form A () Pick-up N: 7% of nominal Terminals P: Blade terminal type Coil (DC), 9, 2, 24V Type, contact material and switching capacity Y: PV type, AgNi type and Form A 48A Note: UL/C-UL and VDE approved type is standard. TYPES Nominal coil V DC 9V DC 2V DC 24V DC Standard packing: Carton: 2 pcs.; Case: pcs. Part No. an-p-dcv-y an-p-dc9v-y an-p-dc2v-y an-p-dc24v-y Contact gap: 2. mm (VDE2 compliant) Compliant with European photovoltaic standard VDE2 Compliant with EN8-2. kv surge (between contacts) Contributes to energy saving in devices thanks to reduced coil hold Coil hold can be reduced down to 4% of the nominal coil (ambient temperature 2 C 8 F). This equals to power consumption of approximately 3 mw. *Coil hold is the coil after ms following application of the nominal coil. a N P DC Y ds_c_en_he: 9D 9
RATING. Coil data Nominal coil 2. Specifications Pick-up (at 2 C 8 F) (Initial) Drop-out (at 2 C 8 F) (Initial) Nominal operating current [ %] (at 2 C 8 F) Coil resistance [ %] (at 2 C 8 F) V DC 32mA 8.8 9V DC 2V DC 7%V or less of nominal %V or more of nominal 23mA ma 42.2 7. 24V DC 8mA 3. Characteristics Item Specifications Contact Rating Electrical characteristics Mechanical characteristics Expected life Conditions Unit weight Arrangement Form A Contact resistance (Initial) Max. m (By drop V DC A) Contact material AgNi type Nominal switching capacity Contact carring power Max. switching Max. switching current Nominal operating power Min. switching capacity (Reference value)* Insulation resistance (Initial) Breakdown Between open contacts (Initial) Between contact and coil Surge breakdown * 2 (Between contact and coil) Temperature rise Coil hold * 3 Operate time (at 2 C 8 F) Release time (at 2 C 8 F)* Shock resistance Vibration resistance Mechanical Electrical Functional Destructive Functional Destructive 48 A 2 V AC (resistive load) 2, VA (resistive load) 2 V AC 48 A (AC),92 mw ma V DC Nominal operating power,92mw Max. applied (at 2 C 8 F) %V of nominal Min.,M (at V DC) Measurement at same location as Breakdown section. 2, Vrms for min. (Detection current: ma), Vrms for min. (Detection current: ma), V (initial) Max. C 4 F (By resistive method, contact carrying current: 48A, %V of nominal coil at C 3 F.) Max. 3 C 8 F (By resistive method, contact carrying current: 48A, %V of nominal coil at 8 C 8 F.) 4 to %V (Contact carrying current: 48A, at 2 C 8 F), to %V (Contact carrying current: 48A, at C 3 F), to %V (Contact carrying current: 48A, at 8 C 8 F) Max. 3 ms (nominal coil, excluding contact bounce time) Max. ms (nominal coil, excluding contact bounce time) (without diode) Min. 98 m/s 2 (Half-wave pulse of sine wave: ms; detection time: s.) Min. 98 m/s 2 (Half-wave pulse of sine wave: ms.) to Hz at double amplitude of. mm (Detection time: s.) to Hz at double amplitude of. mm Min. (at 8 cpm) Resistive load Min. 3 4 (48 A 2 V AC) (ON : OFF = s : 9s) Inductive load Conditions for operation, transport and storage* 4 Endurance: 48 A 2 V AC (cos =.8), Min. 3 4 (ON : OFF =.s : s) Overload: 72 A 2 V AC (cos =.8), Min. (ON : OFF =.s : s) Ambient temperature: to + C 8 to +3 F (When nominal coil applied) to +8 C 8 to +8 F (When applied coil hold is % to % of nominal coil ) Humidity: to 8% R.H. (Not freezing and condensing at low temperature); Atmospheric pressure: 8 to kpa Max. operating speed cpm (at nominal switching capacity ON : OFF = s : 9s) Approx. 8 g 2.82 oz Notes: *.This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. *2.Wave is standard shock of.2 s according to JEC-22-98 *3.Coil hold is the coil after ms following application of the nominal coil. *4.The upper operation ambient temperature limit is the maximum temperature that can satisfy the coil temperature rise value. Refer to usage, transport and storage conditions in NOTES. *.Release time will lengthen if a diode, etc., is connected in parallel to the coil. Be sure to verify operation under actual conditions. ds_c_en_he: 9D
REFERENCE DATA. Coil temperature rise Sample: an-p-dc9v-y, pcs. Point measured: coil inside Ambient temperature: 2 C 77 F, C 4 F, 8 C 8 F Contact carrying current: 48A 7 Temperature rise, C 4 3 2 C C 8 C 2 7 8 9 Coil applied, %V 2. Electrical life test (Resistive load 2V AC, 48A at 8 C 8 F) Sample: an-p-dc9v-y, pcs. Operation frequency: times/min. (ON/OFF =.s : 9.s) Circuit: 2V AC 9V DC Contact welding detection and Miscontacting detection circuit Change of pick-up and drop-out Pick-up and drop-out, V 9 8 7 4 3 2 Pick-up Drop-out Max. x Min. Max. x Min. 3 No. of operations, 4 Change of contact resistance Contact resistance, mω 9 8 7 4 3 2 No. of operations, 4 Max. x Min. 3 DIMENSIONS (Unit: mm inch) External dimensions PC board pattern (Bottom view) 38..49 33.299 32.2.3.248..2 4.7 3.3.429 8..732 8.4.33 24.94 2-2 dia. hole 2-.79 dia. hole.3...2 General tolerance:.3.2 Tolerance:..4 SAFETY STANDARDS Certification authority C-UL 48 A 277 V AC (at 8 C 8 F) VDE (VDE43) 48 A 2 V AC cos =.8 (at 8 C 8 F) ds_c_en_he: 9D
NOTES Usage, transport and storage conditions ) Temperature: to + C 8 to +3 F to +8 C 8 to +8 F (When applied coil hold is % to % of nominal coil ) 2) Humidity: to 8% RH (Avoid freezing and condensation.) The humidity range varies with the temperature. Use within the range indicated in the graph below. 3) Atmospheric pressure: 8 to kpa Temperature and humidity range for usage, transport, and storage 8 (Avoid freezing when used at temperatures lower than C 32 F) - -8 Tolerance range 8 (Avoid freezing when used at temperatures lower than C 32 F) Humidity, %RH (Avoid condensation when used at temperatures higher than C 32 F) +32 +3 Temperature, C F Tolerance range Humidity, %RH (Avoid condensation when used at temperatures higher than C 32 F) - 8-8 +32 +8 Temperature, C F to +8 C 8 to +8 F (When applied coil hold is % to % of nominal coil ) 4) Condensation Condensation forms when there is a sudden change in temperature under high temperature and high humidity conditions. Condensation will cause deterioration of the relay insulation. ) Freezing Condensation or other moisture may freeze on the relay when the temperatures is lower than C 32 F. This causes problems such as sticking of movable parts or operational time lags. ) Low temperature, low humidity environments The plastic becomes brittle if the relay is exposed to a low temperature, low humidity environment for long periods of time. Certification This relay is C-UL certified. 48 A 277 V AC This relay is certified by VDE as an electromagnetic relay that complies with VDE43. 48 A 2 V AC cos =.8 Others ) For precautions regarding use and explanations of technical terminology, please refer to our web site. (panasonic-electric-works.net/ac) 2) To ensure good operation, please keep the on the coil ends to % (at 2 C 8 F) of the rated coil operation. Also, please be aware that the pick-up and drop-out may change depending on the temperature and conditions of use. 3) Keep the ripple rate of the nominal coil below %. 4) The cycle lifetime is defined under the standard test condition specified in the JIS C 442 standard (temperature to 3 C 9 to 9 F, humidity 2 to 8%). Check this with the real device as it is affected by coil driving circuit, load type, activation frequency, activation phase, ambient conditions and other factors. Also, be especially careful of loads such as those listed below. () When used for AC load-operating and the operating phase is synchronous. Rocking and fusing can easily occur due to contact shifting. (2) Highly frequent load-operating When highly frequent opening and closing of the relay is performed with a load that causes arcs at the contacts, nitrogen and oxygen in the air is fused by the arc energy and HNO3 is formed. This can corrode metal materials. Three countermeasures for these are listed here. Incorporate an arc-extinguishing circuit. Lower the operating frequency Lower the ambient humidity ) This value can change due to the switching frequency, environmental conditions, and desired reliability level, therefore it is recommended to check this with the actual load. ) Heat, smoke, and even a fire may occur if the relay is used in conditions outside of the allowable ranges for the coil ratings, contact ratings, operating cycle lifetime, and other specifications. Therefore, do not use the relay if these ratings are exceeded. 7) If the relay has been dropped, the appearance and characteristics should always be checked before use. 8) Incorrect wiring may cause unexpected events or the generation of heat or flames. 2 ds_c_en_he: 9D
4 3 2 ACCESSORIES (Terminal sockets) RELAY ACCESSORIES FEATURES. Snap-in mounting to DIN rails is possible. Can be inserted into 3 mm wide DIN rails. Removal is easy, too. 2. Sure and easy wiring The use of UP terminals makes wiring exceptionally easy and sure. 3. Hold-down clips can be stored in main unit Because the hold-down clips can be stored in the main unit, there is no need to remove them when, for example, wiring is changed. TYPES No. of poles Types Part No. Packing quantity Carton Case For Form A JH-SF pcs. pcs. For 2 Form A JH2-SF pcs. pcs. SPECIFICATIONS Item Specifications Arrangement Form A 2 Form A Max. continuous current 3A 2V AC 2A 2V AC Breakdown (initial) 2, Vrms for min (between terminals) (Detection current: ma.) Insulation resistance Min. M (between poles) Heat resistance C 3 C for hour DIMENSIONS (Unit: mm inch) Form A and 2 Form A types 9.34 22 2.32.8 9.34 External dimensions 4 7 3.433 4.4.7 8 2 9.2.433.32 7.2.283 M3. 4 screw M.38 4 7 8.2 8.4.44.33 M4 4 screw M.7 4 Lot No..3 23.9 Panel cutout 4.7 2-4.2 dia. hole (or 2-M4 screw hole) 2-. dia. hole (or 2-M.7 screw hole) Relay mounting diagram 4.7 34.339 7 2.7 2.42 Note: The JH-SF ( Form A single side stable type) does not have receptacles (tooth rests) for numbers 2, 3, 7, and 8. The JH2-SF (2 Form A single side stable type) does not have receptacles (tooth rests) for numbers 7 and 8. ds_c_en_he: 9D 3
MOUNTING METHOD. Relay mounting 2. Installing to a DIN rail 3. Removing from a DIN rail Push Flat-head screwdriver NOTES. Be careful not to drop the relay. It is made of heat-hardened resin and may break. 2. Be sure to tighten the screw-down terminals firmly. Loose terminals may lead to the generation of heat. 3. When the Form A is used in situations covered by the Japanese Electrical Appliance and Material Control Law, the use of. mm 2 cabling and 3 A current is not allowed. Consequently, the circuit should be less than 2 A. 4. When fixing the terminal socket with screws, to avoid torque damage and distortion, apply torque within the ranges shown below. M3. screws:.784 to.98 N m (8 to kgf cm) M4 screws:.7 to.37 N m (2 to 4 kgf cm) 4 ds_c_en_he: 9D