General-purpose Relay CSM_GR-_-S_DS_E Slim and Space-saving Power Plug-in Relay Lockable test button models now available. Built-in mechanical operation indicator. Provided with nameplate. AC type is equipped with a coil-disconnection self-diagnostic function (LED type). High switching power (-pole: 0 A). Environment-friendly (Cd, Pb free). Wide range of Sockets also available. Model Number Structure Model Number Legend LR GR - - - 3 6. Relay Function Blank: General-purpose. Number of Poles : pole : poles 3. Contact Form Blank: SPDT. Contact Type Blank: Single. Terminals S: Plug-in 6. Classification Blank: General-purpose N: LED indicator D: Diode ND: LED indicator and diode NI: LED indicator with test button NDI: LED indicator and diode with test button. Rated Coil Voltage Ordering Information List of Models Plug-in terminal Classification Enclosure rating Coil ratings Contact form SPDT DPDT General-purpose LED indicator AC/DC N N LED indicator with test button NI NI Unsealed Diode D D LED indicator and diode DC ND ND LED indicator and diode with test button NDI NDI Note: When ordering, add the rated coil and "(S)" to the model number. Rated coil s are given in the coil ratings table. Example: VDC (S) New model Rated coil
Accessories (Order Separately) Connecting Sockets Applicable Relay model pole (N)(D)(ND)(NI)(NDI) poles (N)(D)(ND)(NI)(NDI) Track/surface-mounting Socket Note: Use of the PCM Clip & Release Lever is recommended to ensure stable mounting. Accessories for Screwless Clamp Terminal Socket (Option) Back-mounting Socket Screwless clamp terminal Screw terminal Terminals Model PRF-0S (See note.) + (PCM-S (option)) PRF-0S (See note.) + (PCM-S (option)) PRF-0-E PRF-0 PRF-0-E PRF-0 PCB terminals Solder terminals PCB terminals Solder terminals PR-0P, PR-0P PR-0A PR-0P, PR-0P PR-0A Name Clip & Release Lever Nameplate Socket Bridge Model PCM-S R99- Nameplate for MY PRM-SR (for AC), PRM-SB (for DC) Mounting Tracks Applicable Socket Description Model 0 cm (l) x.3 mm (t): PFP-0N Mounting track m (l) x.3 mm (t): PFP-00N Track-connecting Socket m (l) x 6 mm (t): PFP-00N End plate PFP-M Spacer PFP-S Back-connecting Socket Mounting plate PR-P* * Used to mount several PR-0A and PR-0A Connecting Sockets side by side. Specifications Coil Ratings Rated AC Rated current* 0 Hz 60 Hz Coil resistance* Coil inductance (H) (ref. value) Armature OFF V 3. ma 3. ma 3 Ω 0.. Armature ON 0 V 9. ma. ma,66 Ω 3.33 6.3 0 V.6 ma. ma,6 Ω 6.3 3.6 30 V. ma 3. ma, Ω.6 3.90 0 V 3. ma 3. ma 30,360 Ω 90..3 Must operate Must release % of rated Max. Power consumption (approx.) 0% max. 30% max. 0% 0.9 VA at 60 Hz Rated DC Rated current* Coil resistance* Coil inductance (H) (ref. value) Armature OFF 6 V.0 ma 69 Ω 0. 0. Armature ON V 3. ma Ω 0.9.3 V.6 ma,3 Ω 3.60. V. ma,0 Ω. 9. Must operate * The rated current and coil resistance are measured at a coil temperature of 3 C with tolerances of ±0%. Must release % of rated Max. 0% max. % min. 0% 0.3 W Power consumption (approx.)
Contact Ratings Number of poles pole poles Load Rated load Note: P level: λ60 = 0. x 0-6 /operation Resistive load (cosφ = ) 0 A at 0 VAC; 0 A at 30 VDC Inductive load (cosφ = 0.; L/R = ms). A at 0 VAC; A at 30 VDC Rated carry current 0 A A Resistive load (cosφ = ) A at 0 VAC; A at 30 VDC Max. switching 0 VAC, VDC 30 VAC, VDC Max. switching current 0 A A Max. switching power,00 VA, 300 W, VA, 0 W,0 VA, 0 W Failure rate (reference value) 00 ma at VDC 0 ma at VDC Inductive load (cosφ = 0.; L/R = ms) A at 0 VAC; 3 A at 30 VDC 00 VA, 90 W Characteristics Item pole poles Contact resistance Operate (set) time Release (reset) time Max. operating frequency Insulation resistance Dielectric strength Vibration resistance Shock resistance Endurance 00 mω max. ms max. AC: 0 ms max.; DC: ms max. (w/built-in diode: 0 ms max.) Mechanical: Electrical:,000 MΩ min. (at 00 VDC),000 operations/hr,00 operations/hr (under rated load),000 VAC, 0/60 Hz for min between coil and contacts*;,000 VAC, 0/60 Hz for min between contacts of same polarity Destruction: Malfunction: Note: Values in the above table are the initial values. *,000 VAC, 0/60 Hz for minute when the PR-0A or PR-0A Socket is mounted. AC: ms max.; DC: 0 ms max. (w/built-in diode: 0 ms max.),000 VAC, 0/60 Hz for min between coil and contacts*; 3,000 VAC, 0/60 Hz for min between contacts of different polarity,000 VAC, 0/60 Hz for min between contacts of same polarity 0 to to 0 Hz, 0. mm single amplitude (. mm double amplitude) 0 to to 0 Hz, 0. mm single amplitude (. mm double amplitude) Destruction:,000 m/s Malfunction: 00 m/s when energized; 00 m/s when not energized Mechanical: Electrical: AC coil: 0,000,000 operations min.; DC coil: 0,000,000 operations min. (at,000 operations/hr) 00,000 operations min. (at,00 operations/hr under rated load) (DC coil type) Ambient temperature Operating: 0 C to 0 C (with no icing or condensation) Ambient humidity Operating: % to % Weight Approx. g Approved Standards UL 0 (File No. E63) Model CSA. No.0, No. (File No. LR39) Model Contact form SPDT DPDT Contact form SPDT DPDT Coil ratings to 0 VDC to 0 VAC Coil ratings to 0 VDC to 0 VAC Contact ratings 0 A, 30 VDC (resistive) 0 A, 0 VAC (general use) TV-3 (NO contact only) A, 30 VDC (resistive) A, 0 VAC (general use) TV-3 (NO contact only) Contact ratings 0 A, 30 VDC (resistive) 0 A, 0 VAC (general use) TV-3 (NO contact only) A, 30 VDC (resistive) A, 0 VAC (general use) TV-3 (NO contact only) 6 x 0 3 6 x 0 3 Operations Operations 6 x 0 3 6 x 0 3 IEC/VDE (EN60) Contact form pole poles LR Number of poles pole poles Coil ratings Contact ratings Operations 6,,, VDC, 0, 0, 30, 0 VAC 6,,, VDC, 0, 0, 30, 0 VAC A, 0 VAC (cosφ =.0) 0 A, 0 VAC (cosφ =.0) 0 A, 30 VDC (0 ms) A, 0 VAC (cosφ =.0) A, 30 VDC (0 ms) 00 x 0 3 00 x 0 3 Coil ratings Contact ratings Operations to 0 VDC to 0 VDC to 0 VDC to 0 VDC 0 A, 0 VAC (general use). A, 0 VAC (PF0.) 0 A, 30 VDC (resistive) A, 30VDC (L/R=ms) A, 0 VAC (general use) A, 0 VAC (PF0.) A, 30 VDC (resistive) 3A, 30VDC (L/R=ms) 00 x 0 3 00 x 0 3 3
Engineering Data Maximum Switching Power Plug-in Relays 00 00 Switching current (A) 0 AC inductive load (cosφ = 0.) DC resistive load DC inductive load (L/R = ms) AC resistive load Switching current (A) 0 AC inductive load (cosφ = 0.) DC resistive load DC inductive load (L/R = ms) AC resistive load 0. 0 00 000 Switching (V) 0. 0 00 000 Switching (V) Endurance Plug-in Relays Endurance (x0 3 operations),000,000 00 00 0 0-VAC/30-VDC resistive load 0-VAC inductive load (cosφ = 0.) 30-VDC inductive load (L/R = ms) Endurance (x0 3 operations) 0,000,000,000 00 00 0 0-VAC inductive load (cosφ = 0.) 30-VDC inductive load (L/R = ms) 0-VAC/30-VDC resistive load Switching current (A) Switching current (A) Ambient Temperature vs Maximum Coil Voltage Maximum (%) AC coil DC coil Note: The maximum refers to the maximum value in a varying range of operating power, not a continuous. Ambient temperature ( C)
Dimensions Note: All units are in millimeters unless otherwise indicated. Relays with Plug-in Terminals SPDT Relays, N, NI D, ND, NDI /Internal Connections D (DC) 9 max. 3 max. 3 3 0 3. max. N, NI (AC) N, NI (DC) DCV 0.. 3 3... ND, NDI (DC). 3 DPDT Relays, N, NI D, ND, NDI /Internal Connections D (DC) 9 max. 3 max. 3 3 6 6 0 3. max. N, NI (AC) N, NI (DC) 3 3 0... 6. 6 6..9 ND, NDI (DC) 9. 3 6
Track/Surface Mounting Sockets PRF-0-S 3. max. 36. max. 3.6.6.6. Standard model Option (with ejector and label attached) 9.0 max. 3. A A.0 max.. 3.6 (.3) PRF-0-S 3. max. 36. max. 3.6.6.6 (3.) 9.0 max. 3.. A A Standard model Option (with ejector and label attached).0 max..6 3.6 (.3) Accessories for PRF-@-S Socket Bridge Clip and Release Lever Insulating coating 9 L. dia. conductor (See note.) 6. 0.3 36 6
PRF-0-E Five, M3. max. (for Surface Mounting). max. 6.0 max. 3.-dia.. 6 max. 3. 39. () () 3 () (A) (A) M3 or 3.-dia. 3.-dia. 39.±0. Note: Pin numbers in parentheses apply to DIN standard. PRF-0-E. max.. Eight, M3.0 max. 3 3. 39. () () () 6 3 () () () (for Surface Mounting) 3.-dia. 39.±0. 6.0 max. 3.-dia.. 6.0 max. (A) (A) M3 or 3.-dia. PRF-0 Five, M3. x -dia. s (for Surface Mounting).-dia.. max. 3. 30±0.0 9. max. 9. 30 max. max. M3 or 3.-dia. PRF-0 Eight, M3. x -dia. s (for Surface Mounting).-dia.. max. 3. 30±0.0 9. max. 9. 30 max. max. M3 or 3.-dia.
Mounting Height of Relay with Track/Surface Mounting Sockets PRF-@ PRF-@-E 66. 6.0 6.0 0. PRF-@-S.0 6.0.6 (.30) Back-connecting Sockets PR-0P (-pole) 6.. 3.. max. 3. max. 6. Tolerance: ±0. Five,.6-dia. s. () 36. max. PR-0P (-pole) 0.3. max.. Eight,.3-dia. s 0 3. max.. 0.. (.3) Terminal plate thickness: 0.3 36. max.
PR-0A (-pole) 0.3.. max. 6. 3. 6. 3. max. Five, 3 x.-dia. s 6 Panel Cutout 3.6±0. Terminal plate thickness: 0.3 36. max. PR-0A (-pole) 0.3.. max. 30.±0. 0.6 3. max. Recommended thickness of the panel is.6 to.0 mm.. Eight, 3 x.-dia. s. Terminal plate thickness: 0.3 36. max. PR-0P 0. max.. 6. 0. ±0. Five,.6-dia. s 3 max. 9.6 6±0..±0. ±0... ±0. ±0. max. PR-0P max.. 6. 0.. Eight,.3-dia. s 3 max. 9. 0.9. (.) max. Mounting Height of Relay with Back-connecting Sockets GR-@P GR-@A GR-@P GR Relay. PR-_P Socket 3.0 GR Relay PR-_A Socket. 9
Mounting Tracks PFP-00N, PFP-0N PFP-00N..3±0. 3±0.3 ±0.. 3±0.3 6 9. 0 0,000 (00) () 0 0,000. It is recommended to use a panel.6 to.0 mm thick. End Plate Spacer PFP-M 0 6.. PFP-S 6 0 3. 3.3..3 3.. 0 M x pan head screw.3. 6. Precautions Cation Do not use the test button for any purpose other than testing. Be sure not to touch the test button accidentally as this will turn the contacts ON. Before using the test button, confirm that circuits, the load, and any other connected item will operate safely. Check that the test button is released before turning ON relay circuits. If the test button is pulled out too forcefully, it may bypass the momentary testing position and go straight into the locked position. Use an insulated tool when you operate the test button. Precautions for PRF-@-S Connection Do not move the screwdriver up, down, or from side to side while it is inserted in the. Doing so may cause damage to internal components (e.g., deformation of the clamp spring or cracks in the housing) or cause deterioration of insulation. Do not insert the screwdriver at an angle. Doing so may break the side of the socket and result in a short-circuit. 0