Long Distance Type Long distance proximity Features Long sensing distance (. to times longer sensing distance guaranteed compared to existing models) Improved the noise resistance with dedicated IC Built-in surge protection, reverse polarity protection, overcurrent protection circuit Long life cycle and high reliability Red LED status indication Protection structure IP6(IEC standard) Replaceable for micro switches and limit switches Improved cable strain relief : More reliable flexural strength of /cable connecting part Specifications DC -wire type Model Please read Caution for your safety in operation manual before using. PRDT- O PRDT-8 O PRDT- C PRDT-8 C PRDT- O-V PRDT-8 O-V PRDT- C-V PRDT-8 C-V PRDLT- O PRDLT-8 O PRDLT- C PRDLT-8 C PRDLT- O-V PRDLT-8 O-V PRDLT- C-V PRDLT-8 C-V PRDWT- O PRDWT-8 O PRDWT- C PRDWT-8 C PRDWT- O-I PRDWT-8 O-I PRDWT- C-I PRDWT-8 C-I PRDWT- O-IV PRDWT-8 O-IV PRDWT- C-IV PRDWT-8 C-IV PRDT8- O PRDT8- O PRDT8- C PRDT8- C PRDT8- O-V PRDT8- C-V PRDLT8- O PRDLT8- C PRDLT8- O-V PRDLT8- C-V PRDWT8- O PRDWT8- C PRDWT8- O-I PRDWT8- C-I PRDWT8- O-IV PRDWT8- C-IV PRDWLT8- O-IV PRDWLT8- C-IV PRDT8- O-V PRDT8- C-V PRDLT8- O PRDLT8- C PRDLT8- O-V PRDLT8- C-V PRDWT8- O PRDWT8- C PRDWT8- O-I PRDWT8- C-I PRDWT8- O-IV PRDWT8- C-IV PRDWLT8- O-IV PRDWLT8- C-IV Line-up PRDT0- O PRDT0- O PRDT0- C PRDT0- C PRDT0- O-V PRDT0- O-V PRDT0- C-V PRDT0- C-V PRDLT0- O PRDLT0- O PRDLT0- C PRDLT0- C PRDLT0- O-V PRDLT0- O-V PRDLT0- C-V PRDLT0- C-V PRDWT0- O PRDWT0- O PRDWT0- C PRDWT0- C PRDWT0- O-I PRDWT0- O-I PRDWT0- C-I PRDWT0- C-I PRDWT0- O-IV PRDWT0- O-IV PRDWT0- C-IV PRDWT0- C-IV Sensing distance mm 8mm mm mm mm mm Hysteresis Max. 0% of sensing distance Standard sensing target mm(iron) mm (Iron) 0 0 mm (Iron) 0 0 mm (Iron) mm (Iron) mm (Iron) Sensing distance 0 to.8mm 0 to.6mm 0 to.9mm 0 to 9.8mm 0 to 0.mm 0 to.mm Power supply (Operating voltage) -VDC (0-DC) Leakage current Max. 0.6mA Response frequency 0HZ 00Hz 0Hz 00Hz 00Hz Residual voltage Max..V(for non-polarity type, max. V) Affection by Temp. Max. ±0% for sensing distance at ambient temperature 0 Control output to 00mA Insulation resistance Min. 0MΩ(at 0DC megger) Dielectric strength 0AC 0/60Hz for minute Vibration mm amplitude at frequency of 0 to Hz(for min.) in each of X, Y, Z directions for hours Shock 00m/s²(approx. 0G) X, Y, Z directions for times (red LED) Environment Ambient temperature - to 0, Storage: -0 to 80 Ambient humidity to 9%RH, Storage: to 9%RH Protection circuit Surge protection circuit, Reverse polarity protection circuit, Overcurrent protection circuit Material Case/Nut: Nickel plated Brass, Washer: Nickel plated Iron, Sensing surface: Heat-resistant ABS, Standard cable(): Polyvinyl chloride(pvc), Oil resistant cable(gray): Oil resistant Polyvinyl chloride(pvc) Cable ø, -wire, m, -wire, m (For cable type, mm, connector), (AWG, Core dia: 0.08mm, Number of cores: 60, Insulator dia: ø.) Approval Protection IP6(IEC Standard) Unit weight PRDT: Approx. g PRDT: Approx. 0g PRDT: Approx. g PRDT: Approx. g PRDT: Approx. g PRDT: Approx. 80g PRDLT: Approx. g PRDLT: Approx. 0g PRDLT: Approx. 9g PRDLT: Approx. 9g PRDLT: Approx. g PRDLT: Approx. 0g PRDWT: Approx. 80g PRDWT: Approx. g PRDWT: Approx. g PRDWT: Approx. g PRDWLT: Approx. g PRDWT: Approx. 0g PRDWT: Approx. g PRDWLT: Approx. 0g : The response frequency is the average value. The standard sensing target is used and the width is set as times of the standard sensing target, / of the sensing distance for the distance. : Before using non-polarity type, check the condition of connected device because residual voltage is V. The ' ' of model name is for power type. 'D' is -VDC, 'X' is non-polarity -VDC. The last 'V' of model name is for the model with oil-resistance reinforced cable. Environment resistance is rated at no freezing or condensation. (A) Photo electric r (B) Fiber optic (C) Door/Area (D) Proximity (E) Pressure (F) Rotary encoder (G) Connector/ Socket (H) Temp. (I) SSR/ Power (J) Counter (K) Timer (L) Panel (M) Tacho/ Speed/ Pulse (N) Display unit (O) Sensor (P) Switching mode power supply (Q) Stepper motor& Driver&Controller (R) Graphic/ Logic panel (S) Field network device (T) Software (U) Other D-
Specifications DC -wire type Model PRD-DN PRD-DP PRD-DN PRD-DP PRDL-DN PRDL-DP PRDL-DN PRDL-DP PRDW-DN PRDW-DP PRDW-DN PRDW-DP PRDW-DN-V PRDW-DP-V PRDWL-DN PRDWL-DP PRDWL-DN PRDWL-DP PRD-8DN PRD-8DP PRD-8DN PRD-8DP PRDL-8DN PRDL-8DP PRDL-8DN PRDL-8DP PRDW-8DN PRDW-8DP PRDW-8DN PRDW-8DP PRDW-8DN-V PRDW-8DP-V PRDWL-8DN PRDWL-8DP PRDWL-8DN PRDWL-8DP PRD8-DN PRD8-DP PRD8-DN PRD8-DP PRDL8-DN PRDL8-DP PRDL8-DN PRDL8-DP PRDW8-DN PRDW8-DP PRDW8-DN PRDW8-DP PRDW8-DN-V PRDW8-DP-V PRDWL8-DN PRDWL8-DP PRDWL8-DN PRDWL8-DP PRD8-DN PRD8-DP PRD8-DN PRD8-DP PRDL8-DN PRDL8-DP PRDL8-DN PRDL8-DP PRDW8-DN PRDW8-DP PRDW8-DN PRDW8-DP PRDW8-DN-V PRDW8-DP-V PRDWL8-DN PRDWL8-DP PRDWL8-DN PRDWL8-DP PRD0-DN PRD0-DP PRD0-DN PRD0-DP PRDL0-DN PRDL0-DP PRDL0-DN PRDL0-DP PRDW0-DN PRDW0-DP PRDW0-DN PRDW0-DP PRDW0-DN-V PRDW0-DP-V PRDWL0-DN PRDWL0-DP PRDWL0-DN PRDWL0-DP PRD0-DN PRD0-DP PRD0-DN PRD0-DP PRDL0-DN PRDL0-DP PRDL0-DN PRDL0-DP PRDW0-DN PRDW0-DP PRDW0-DN PRDW0-DP PRDW0-DN-V PRDW0-DP-V PRDWL0-DN PRDWL0-DP PRDWL0-DN PRDWL0-DP Sensing distance mm 8mm mm mm mm mm Hysteresis Max. 0% of sensing distance Standard sensing target mm(iron) mm(iron) 0 0 mm (Iron) 0 0 mm (Iron) mm (Iron) mm (Iron) Sensing distance 0 to.8mm 0 to.6mm 0 to.9mm 0 to 9.8mm 0 to 0.mm 0 to.mm Power supply (Operating voltage) -VDC (0-DC) Current consumption Max. 0mA Response frequency 00Hz 00Hz Hz 00Hz 00HZ 00Hz Residual voltage Max..V Affection by Temp. Max. ±0% for sensing distance at ambient temperature 0 Control output 00mA Insulation resistance Min. 0MΩ(at 0DC megger) Dielectric strength 0AC 0/60Hz for minute Vibration mm amplitude at frequency of 0 to Hz(for min.) in each of X, Y, Z directions for hours Shock 00m/s²(approx. 0G) X, Y, Z directions for times (red LED) Environment Ambient temperature - to 0, Storage: -0 to 80 Ambient humidity to 9%RH, Storage: to 9%RH Protection circuit Surge protection circuit, Reverse polarity protection circuit, Overcurrent protection circuit Protection IP6(IEC Standard) Material Case/Nut: Nickel plated Brass, Washer: Nickel plated Iron, Sensing surface: Heat-resistant ABS, Standard cable(): Polyvinyl chloride(pvc), Oil resistant cable(gray): Oil resistant Polyvinyl chloride(pvc) Cable ø, -wire, m, -wire, m (For cable type, mm, connector), (AWG, Core dia: 0.08mm, Number of cores: 60, Insulator dia: ø.) Approval Unit weight PRD: Approx. g PRDL: Approx. 9g PRDW: Approx. g PRD: Approx. g PRDL: Approx. 9g PRDW: Approx. g PRD: Approx. g PRDL: Approx. g PRDW: Approx. 80g PRD: Approx. 0g PRDL: Approx. 0g PRDW: Approx. g PRD: Approx. g PRD: Approx. 80g PRDL: Approx. g PRDL: Approx. 0g PRDW: Approx. 0g PRDW: Approx. g PRDWL: Approx. 80g PRDWL: Approx. 8g PRDWL: Approx. 6g PRDWL: Approx. g PRDWL: Approx. 0g PRDWL: Approx. 0g : The response frequency is the average value. The standard sensing target is used and the width is set as times of the standard sensing target, / of the sensing distance for the distance. The last 'V' of model name is for the model with oil-resistance reinforced cable. Environment resistance is rated at no freezing or condensation. PRD(T)-D PRD(T)-8D ø. ø. ø indicator X ø indicator X D-
Long Distance Type PRDL(T)-D ø 6 PRDL(T)-8D ø 6 (A) Photo electric r (B) Fiber optic PRD(T)8-D 9. ø PRD(T)8-D 0 9 ø (C) Door/Area (D) Proximity (E) Pressure M8 M8 (F) Rotary encoder (G) Connector/ Socket PRDL(T)8-D PRDL(T)8-D 0 (H) Temp. (I) SSR/ Power PRD(T)0-D ø 8 M8 indicator PRD(T)0-D ø 0 8 M8 indicator (J) Counter (K) Timer (L) Panel (M) Tacho/ Speed/ Pulse M0. M0. (N) Display unit PRDL(T)0-D ø 60 8 PRDL(T)0-D ø 0 8 0 (O) Sensor (P) Switching mode power supply PRDW(T)-D ø M0. indicator. M0. indicator (Q) Stepper motor& Driver&Controller (R) Graphic/ Logic panel (S) Field network device (T) Software PRDW(T)-8D ø. ø (U) Other ø D-
PRDWL-D ø 6 PRDWL-8D ø 6 ø PRDW(T)8-D 8. ø PRDW(T)8-D 0 9 M8 PRDWL(T)8-D M8 PRDWL(T)8-D 0 M8 PRDW(T)0-D ø 8 M8 PRDW(T)0-D ø 0 8 M0. M0. D-
Long Distance Type PRDWL(T)0-D ø 60 8 (A) Photo electric r (B) Fiber optic (C) Door/Area PRDWL(T)0-D ø 0 8 0 M0. (D) Proximity (E) Pressure (F) Rotary encoder Control output diagram DC -wire type Main circuit Sensing target Presence Nothing Return ON OFF (red LED) N.O. N.C. M0. DC -wire type NPN output type Main circuit 0 kω Sensing target (brown-black) Output voltage (black-blue) (red LED) Presence None Return H L ON OFF N.O. N.C. (G) Connector/ Socket (H) Temp. (I) SSR/ Power (J) Counter (K) Timer (L) Panel The number in a circle is pin no. of connector. Connections DC -wire type DC -wire type PNP output type Main circuit 0 kω The load can be connected to either wire. Sensing target (black-blue) Output voltage (black-blue) (red LED) Presence None Return H L ON OFF N.O. N.C. (M) Tacho/ Speed/ Pulse (N) Display unit (O) Sensor (P) Switching mode power supply (Q) Stepper motor& Driver&Controller (R) Graphic/ Logic panel (S) Field network device (PRD8-DN) (PRD8-DN) 8 9 0 cp cp (T) Software (U) Other (PRD8-DN) 6 < PA0-U > < FX > 00-AC D-
Wiring diagram DC -wire type(standard type) Normally Open(N.O.) / Normally Closed(N.C.) DC -wire type NPN output type PNP output type Pin, are not used terminals. For DC -wire type connector cable, it is available to use with black wire(-vdc) and blue wire(). Normally Open(N.O.) DC -wire type(iec standard type) Normally Closed(N.C.) Please fasten the cleat of connector not to shown the thread. (0.9 to 0.9N. m) Please fasten the vibration part with Teflon tape. Refer to the G-6 about IEC standard connector wires and specifications., of N.O. type and, of N.C. type are not used terminals. The pin arrangement of connector applying IEC standard is being developed. Please attach "I" at the end of the name of standard type for purchasing the IEC standard product. Ex)PRDWT-DO-I The connector cable for IEC standard is being developed. Please attach "I' at the end of the name of standard type. Ex)CID--I, CLD--I + + VDC - - < DC -wire type > < DC -wire type > Please make the current on proximity smaller than In case of the load current is small the return current of load by connecting a bleeder resistor in DC -wire type parallel. W value of Bleeder resistor should be bigger for proper + heat dissipation. Bleeder resistor(r) Vs Vs Vs R = (Ω) P = (W) - Io-Ioff R Vs : Power supply, Io : Min. action current of proximity [ Ioff : Return current of load, P : Number of Bleeder resistance watt ] Mutual-interference When several proximity s are mounted close to one another a malfunction of the may be caused due Parallel B to mutual interference. Therefore, be sure to provide a A minimum distance between the two s as below chart Face to Face indicates. Influence by surrounding metals m When s are mounted on metallic panel, you must ød n prevent the s from being affected by any metallic l object except target. Therefore, be sure to provide a l l minimum distance as below chart indicates. Model PRDT8- PRDT8- PRDT- PRDT-8 PRDT0- PRDT0- PRDWT8- PRDWT8- PRDWT- PRDWT-8 PRDWT0- PRDWT0- PRDLT8- PRDLT8- PRDLT- PRDLT-8 PRDLT0- PRDLT0- Item PRDWLT8- PRDWLT8- A 8 8 90 0 B 6 6 60 90 l 0 0 0 ød 6 8 0 90 m n 8 6 90 D-6 Proper usage connections