Automation Controls Catalog Active Optical Connector V Series 1 channel-Bi-direction/2 channel-Uni-direction Easy high speed optical transfer inside devices FEATURES 1. Plug is equipped with electrical / optical conversion function. 2. Noise reduction of high speed signal and electrical isolation easily achieved. 3. High speed and wide data rate transmission possible 4. Lineup includes 1 channel-Bi-direction and 2 channel-Uni-direction 1 channel-Bi-direction: 20 Mbps to Max. 8 Gbps 2 channel-Uni-direction: 20 Mbps to Max. 16 Gbps (20 Mbps to 8 Gbps/ch) APPLICATIONS 1. Measuring equipment, Image processing instrument, Industrial robots, Printer, Medical equipment, etc. and other high speed transmission, noise reduction and electrical isolation applications DETAILED FEATURES Plug is equipped with electrical/optical conversion function. Plug (E/O conversion) Optical fiber (Quartz, dual core) 1 channel-Bi-direction: Max. 8 Gbps transmission Being able to reverse the dual core optical fiber transfer direction makes it ideal for such applications as mutual high speed transfer between connected PC boards. 2 channel-Uni-direction: Max. 16 Gbps transmission (8 Gbps/ch) Being able to use the dual core optical fiber unidirectionally makes it ideal for high capacity (max. 16 Gbps) transfer applications. Receptacle The differential input signal is converted to an optical signal by the Laser Diode Driver (LDD) and Laser Diode (LD) in the plug. The optical signal is transmitted through the optical fiber and reproduced as differential output signal by the Photo Diode (PD) and Trans Impedance Amplifier (TIA). 1 channel Differential Bi-direction output signal TIA (Trans impedance amplifier) PD Photo diode LD Laser diode LDD Laser diode driver Differential input signal Differential input signal LDD Laser diode driver LD Laser diode PD Photo diode TIA (Trans impedance amplifier) Differential output signal 2 channels Differential Uni-direction input signal LDD Laser diode driver LD Laser diode PD Photo diode TIA (Trans impedance amplifier) Differential output signal Differential input signal LDD Laser diode driver LD Laser diode PD Photo diode TIA (Trans impedance amplifier) Differential output signal 2019.07 industrial.panasonic.com/ac/e/ Optical fiber Optical fiber 1 c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) PRODUCT TYPES (1 channel-Bi-direction) Integrated cable and plug Transmission rate Transmission specifications 20 Mbps to 6 Gbps/ch Cable length Part No. 50 mm AYG4V10585M1 1 channel-Bi-direction Packing quantity 500 mm AYG4V15085M1 1000 mm AYG4V1A085M1 50 mm AYG4V10585M3 500 mm AYG4V15085M3 1000 mm AYG4V1A085M3 10 pcs. 100 pcs. Receptacle (both 1 channel-Bi-direction and 2 channel-Uni-direction) Product type Part No. Receptacle Packing quantity AXK6S20447M1 20 pcs. AXK6S20447M3 200 pcs. (reel) SPECIFICATIONS (1 channel-Bi-direction) Rated specifications (per channel) Min. Typical Max. Unit Supply voltage Item 3.2 3.3 3.4 V Power consumption -- -- 230 mW Transmission rate (per channel) Condition -- Bi-direction, 1channel 0.02 -- 8 Gbps Input/output characteristic impedance 80 100 125 8b/10b coding Differential input voltage 400 -- 1600 mVpp Input common mode voltage 150 -- 340 mV *1 Input total jitter -- -- 0.24 UI *2 Input rise-time -- -- 0.30 UI 20 to 80%*2, *3 Input fall-time -- -- 0.30 UI 20 to 80%*2, *3 Differential output voltage 300 440 550 mVpp Output common mode voltage 150 250 275 mV *2 Output rise-time -- -- 0.50 UI 20 to 80%*2 Output fall-time -- -- 0.50 UI 20 to 80%*2 Output total jitter -- -- 0.60 UI Dj + Rjpp*2 -- peak-to-peak peak-to-peak*2 *1: When performing AC coupling, the input common mode voltage is 0 to 1.8 V. *2: Input data pattern is PRBS 27-1. Rjpp is equivalent to BER 10-12. *3: When the transmission rate is under 1.5 Gbps, the time is up to 200 ps. Use conditions Item Performance Remarks Operating ambient temperature 0 to +70C No icing or condensation. Storage temperature -20 to +50C (packaged form) -20 to +85C (product only) No icing or condensation. Electrical static discharge 2 kV Applied 3 times on the external shell C = 100 pF, R = 1.5 k C = 150 pF, R = 330 Immunity Conformed to IEC61000-6-2 standard -- Electromagnetic interference Conformed to VCCI class B standard -- Composite insertion force Max. 15.7 N (initial) -- Composite removal force Min. 1.17 N -- Insertion and removal life 50 times Repeated insertion and removal cycles of Max. 200 times/hour Laser Class Leser Class 1 Emission peak wavelength: 850 nm Max. output: 2.2 mW IEC 60825-1 Ed. 2: 2007 IEC 60825-1 Ed. 3: 2014 Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 2 c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) Materials specifications Component name Shell Materials Specifications and Remarks Copper alloy Nickel plating Bushing Elastomer Black Optical fiber Silica, UV-cured resin Cross section: 0.4 x 0.6 mm, 2 cores Connector LCP resin, copper alloy Terminal (Au-plating on Ni-base) Photoelectric conversion PC board Glass-fibered epoxy, epoxy resin, etc. IC CMOS -- Laser diode GaAs -- Photodiode GaAs -- -- TERMINAL LAYOUT 1 channel-Bi-direction Terminal layout diagram (TOP VIEW, receptacle as transparent) Receptacle terminal No. 1 2 3 4 5 6 7 8 9 10 Optical fiber side Receptacle 11 12 13 14 15 16 17 18 19 20 Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 3 No. Name 1 Monitor 2 GND 3 Differential output - 4 Differential output + 5 GND 6 Open 7 Open 8 Power Supply 9 Power Supply 10 GND 11 Open 12 GND 13 Differential input - 14 Differential input + 15 GND 16 GND 17 Power Supply 18 Power Supply 19 Power Supply 20 GND c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) PRODUCT TYPES (2 channel-Uni-direction) Integrated cable and plug Transmission rate Transmission specifications 20 Mbps to 8 Gbps/ch Cable length Part No. 50 mm AYG5V10585M1 2 channel-Uni-direction Packing quantity 500 mm AYG5V15085M1 1000 mm AYG5V1A085M1 50 mm AYG5V10585M3 500 mm AYG5V15085M3 1000 mm AYG5V1A085M3 10 pcs. 100 pcs. Receptacle (both 1 channel-Bi-direction and 2 channel-Uni-direction) Product type Part No. Receptacle Packing quantity AXK6S20447M1 20 pcs. AXK6S20447M3 200 pcs. (reel) SPECIFICATIONS (2 channel-Uni-direction) Rated specifications (per channel) Min. Typical Max. Unit Supply voltage Item 3.2 3.3 3.4 V -- Power consumption -- -- 230 mW Uni-direction, 2 channels Transmission rate (per channel) Condition 0.02 -- 8 Gbps Input/output characteristic impedance 80 100 125 8b/10b coding Differential input voltage 400 -- 1600 mVpp Input common mode voltage 150 -- 340 mV *1 Input total jitter -- -- 0.24 UI *2 Input rise-time -- -- 0.30 UI 20 to 80%*2, *3 Input fall-time -- -- 0.30 UI 20 to 80%*2, *3 Differential output voltage 300 440 550 mVpp Output common mode voltage 150 250 275 mV *2 Output rise-time -- -- 0.50 UI 20 to 80%*2 Output fall-time -- -- 0.50 UI 20 to 80%*2 Output total jitter -- -- 0.60 UI Dj + Rjpp*2 -- peak-to-peak peak-to-peak*2 *1: When performing AC coupling, the input common mode voltage is 0 to 1.8 V. *2: Input data pattern is PRBS 27-1. Rjpp is equivalent to BER 10-12. *3: When the transmission rate is under 1.5 Gbps, the time is up to 200 ps. Use conditions Item Performance Remarks Operating ambient temperature 0 to +70C No icing or condensation. Storage temperature -20 to +50C (packaged form) -20 to +85C (product only) No icing or condensation. Electrical static discharge 2 kV Applied 3 times on the external shell C = 100 pF, R = 1.5 k C = 150 pF, R = 330 Immunity Conformed to IEC61000-6-2 standard -- Electromagnetic interference Conformed to VCCI class B standard -- Composite insertion force Max. 15.7 N (initial) -- Composite removal force Min. 1.17 N -- Insertion and removal life 50 times Repeated insertion and removal cycles of Max. 200 times/hour Laser Class Leser Class 1 Emission peak wavelength: 850 nm Max. output: 2.2 mW IEC 60825-1 Ed. 2: 2007 IEC 60825-1 Ed. 3: 2014 Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 4 c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) Materials specifications Component name Shell Materials Specifications and Remarks Copper alloy Nickel plating Bushing Elastomer Black Optical fiber Silica, UV-cured resin Cross section: 0.4 x 0.6 mm, 2 cores Connector LCP resin, copper alloy Terminal (Au-plating on Ni-base) Photoelectric conversion PC board Glass-fibered epoxy, epoxy resin, etc. IC CMOS -- Laser diode GaAs -- Photodiode GaAs -- -- TERMINAL LAYOUT 2 channel-Uni-direction Transmitter side Terminal layout diagram (TOP VIEW, receptacle as transparent) Receptacle terminal No. 1 2 3 4 5 6 7 8 9 10 Optical fiber side Receptacle 11 12 13 14 15 16 17 18 19 20 No. Name 1 Open 2 GND 3 ch1 Differential input + 4 ch1 Differential input - 5 GND 6 Open 7 Power Supply 8 Power Supply 9 Open 10 GND 11 Open 12 GND 13 ch2 Differential input - 14 ch2 Differential input + 15 GND 16 Open 17 Power Supply 18 Power Supply 19 Open 20 GND No. Name 1 Open Receiver side Terminal layout diagram (TOP VIEW, receptacle as transparent) Receptacle terminal No. 1 2 3 4 5 6 7 8 9 10 Optical fiber side Receptacle 11 12 13 14 15 16 17 18 19 20 Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 5 2 GND 3 ch2 Differential output - 4 ch2 Differential output + 5 GND 6 Monitor (ch2) 7 Open 8 Open 9 Power Supply 10 GND 11 Open 12 GND 13 ch1 Differential output + 14 ch1 Differential output - 15 GND 16 Monitor (ch1) 17 Open 18 Open 19 Power Supply 20 GND c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) DIMENSIONS (both 1 channel-Bi-direction and 2 channel-Uni-direction) Unit: mm Integrated cable and plug 12.7 L 9.1 0.60 3.9 6.1 0.40 Label NOTES: 1 channel-Bi-direction : The label is attached to only one plug. 2 channel-Uni-direction: The labels are attached to a plug on both side General tolerance: 0. 3 1 channel-Bi-direction 2 channel-Uni-direction L: Cable length (mm) Tolerance (mm) L: Cable length (mm) Tolerance (mm) 50 +10 -0 50 +10 -0 500 +50 -0 500 +50 -0 1000 +100 -0 1000 +100 -0 Receptacle 3.30 0.95 2.80 5.00 4.20 1.72 (Suction face) C 0.90 * Lot No. marking 4.500.1 8.20 0.10 1.10 0.500.05 0.200.03 0.200.03 1.10 0.500.05 General tolerance: 0. 2 * The terminal close to the portion to be soldered have nickel barriers (except nickel portions). Plug and receptacle are mated 6.5 9.1 Label 6.0 Center of receptacle Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 6 c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) EMBOSSED TAPE DIMENSIONS Unit: mm Receptacle: Embossed tape packaging Specifications for taping Specifications for the plastic reel In accordance with JIS C 0806: 1990. However, not applied to the mounting-hole pitch of some connectors. In accordance with EIAJ ET-7200B. 25.41 Label Embossed carrier tape 380 dia. 4.0 Top cover tape 2.0 Leading direction after packaging 24.00.3 11.5 1.75 Embossed mounting-hole 12.0 Taping reel 1.5+0.1 0 dia. Receptacle orientation with respect to embossed tape feeding direction Type Direction of tape progress Receptacle NOTES Unit: mm Mounting layout (Component prohibited area) The shaded area cannot be used for the placement of other components since it is used by the active optical connector. The PC board in the shaded area should be covered with solder resist except for the receptacle's mounting pad. 13.4 3.9 5.0 9.7 6.3 8.2 Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 7 c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) Design of PC board patterns Conduct the recommended foot pattern design, in order to preserve the mechanical strength of terminal solder areas. Recommended PC board and metal mask patterns Connectors are mounted with high pitch density, intervals of 0.35 mm, 0.4 mm or 0.5 mm. In order to reduce solder and flux rise, solder bridges and other issues make sure the proper levels of solder is used. The figures are recommended patterns. Please use them as a reference. Recommended PC board pattern (TOP VIEW) ( 2.00) 2.000.05 6.000.05 0.750.05 0.1250.05 0.500.05 0.250.05 ( 2.00) 0.500.05 0.500.01 0.350.01 0.1150.01 0.500.01 0.230.01 6.000.01 ( 1.90) 2.200.01 ( 1.50) 3.000.01 6.000.01 0.350.01 0.1150.01 0.500.01 0.230.01 ( 1.50) 0.500.01 Recommended metal mask pattern Metal mask thickness: When 120 m (Opening area ratio: 87%) Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ( 1.90) Recommended metal mask pattern Metal mask thickness: When 150 m (Opening area ratio: 69%) 8 c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) Notes on Using Active Optical Connector V Series About safety remarks Observe the following safety remarks to prevent accidents and injuries. * Do not use these connectors beyond the specification sheets. The usage outside of specified rated current, dielectric strength, and environmental conditions and so on may cause circuitry damage via abnormal heating, smoke, and fire, or eye or skin injuries by laser beam. * In order to avoid accidents, your thorough specification review is appreciated. Please contact our sales office if your usage is out of the specifications. Otherwise, Panasonic Corporation cannot guarantee the quality and reliability. * We are doing our best to constantly improve the quality and reliability of our products. However, some electric items/components do in fact fail despite our efforts. The durability of products also varies depending on service environments and conditions. Please check your product under actual service conditions before use. If you continue to use a product in a poor condition, items with deteriorated insulation performance may generate abnormal heat or smoke or even ignite. The product's failure or end of service life may cause accidents involving risks to human health, fire, or danger to the public at large. We advise you to apply safety measures and regular maintenance work, such as the use of redundant design, fireproofing, and malfunction-preventing design, to rule out such accidents. * Caution at the time of a breakage of optical fiber When the optical fiber breaks, immediately shut off the power. This product uses a laser diode (class 1) of non-visible light with oscillation wavelength 850 nm. Do not look into the tip of an optical fiber. The laser beam does not irradiate outside in normal operation, but a breakage of the optical fiber may cause irradiation outside. When the optical fiber breaks, be very careful not to injury at the fiber tip. Cautions when using the product Cautions about the operating and storage environments Please use the product in accordance with the conditions described in these specifications. The product quality cannot be warranted if the product fails because it is used outside the conditions in these specifications. * Product failure due to condensation cannot be warranted. * Use caution for avoiding dust. * This product has a structure requiring an insertion force for mating, but the mating may come off when an external force is applied to the plug, impact is applied by dropping, or vibration is applied in equipment. Sufficient caution should be used with the equipment to avoid such incidents. * The product cannot be used in a movable parts while the optical fiber is bent. Such use may cause deformation of the receptacle or breakage of the optical fiber. * In order to avoid a load on the plug and receptacle applied by the tensile force of the optical fiber, a redundant design is required with respect to the optical fiber length. * Use caution for wiring the optical fiber to avoid getting entangled or twisting. Also, use adhesive tape for securing the optical fiber for preventing excessive stress caused by vibration and impact. Ex) * The following environment may deteriorate the product's appearance and affect the product characteristics, and should thus be avoided. * An environment in which the possible adherence of chemicals such as acid and alkali exists. * In a gaseous atmosphere of salt, sulfide, etc. * Insertion and removal operations must be performed while the power is off. Insertion or removal operations in a live condition (with current and voltage) may lead to a breakage. * Use caution with regard to the generation and handling of static electricity in the operating environment to protect the plug. * Secure sufficient insulation distance between the external metal enclosure of the plug and the peripheral components. The plug enclosure, which is connected to the ground, may give rise to danger from a short-circuit. When the product is used in a different environment and in accordance with a method other than described in this document, please contact our sales office. * Do not disassemble this product. Doing so will cause malfunction. Also, do not remove the label. The product control number is there. Bushing Optical fiber Securing with tape Plug Direction of mating and insertion 1 channel-Bi-direction Mating of the plug and receptacle requires orientation. Align the receptacle shape in the direction of the optical fiber of plug. 2-channel-Uni-direction The plugs on each end of the optical fiber cable are different (transmission side and receiving side). The cable will not work if inserted incorrectly; therefore, please verify the ends prior to installation. The receiving end plug has an arrow printed on it for the purpose of verification. Please implement a measure to avoid incorrect insertion such as by printing a similar mark on the PC board. Example of avoid incorrect insertion Receiving side module Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 9 Silk screen printing, etc. c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) Insertion Because this product has been designed with a thin mating structure between the plug and receptacle for compact-sizing purposes, excessive tilting during insertion or removal leads to product fracture and separation of the solder section of terminals. For avoiding breakage of the mating parts, confirm the alignment before mating. Mating of plug Make sure the plug is securely inserted into the receptacle. After mating, a gap remains between the PC board and plug. Avoid applying excessive pressure. Insertion Plug removal For the removal operation, hold both sides of the metal enclosure and lift the plug upward. Do not pull the optical fiber and bushing. Enclosure metal side Enclosure metal side Receptacle Regarding soldering Reflow soldering * Measure the recommended profile temperature for reflow soldering by placing a sensor on the PC board near the connector surface or terminals. (Please refer to the specification for detail because the temperature setting differs by products.) * As for cream solder printing, screen printing is recommended. * When setting the screen opening area and PC board foot pattern area, refer the recommended PC board pattern and window size of metal mask on the specification sheet, and make sure that the size of board pattern and metal mask at the base of the terminals are not increased. * Please pay attentions not to provide too much solder. It makes miss mating because of interference at soldering portion when mating. Terminal Paste solder PC board foot pattern * When mounting on both sides of the PC board and the connector is mounting on the underside, use adhesives or other means to ensure the connector is properly fixed to the PC board. (Double reflow soldering on the same side is possible.) * The condition of solder or flux rise and wettability varies depending on the type of solder and flux. Solder and flux characteristics should be taken into consideration and also set the reflow temperature and oxygen level. * Do not use resin-containing solder. Otherwise, the contacts might be firmly fixed. Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ * Soldering conditions Please use the reflow temperature profile conditions recommended below for reflow soldering. Please contact our sales office before using a temperature profile other than that described below (e.g. lead-free solder) Temperature Peak temperature 260 230 180 150 Peak temperature Preheating 60 to 120 sec. 220 200 25 sec. 70 sec. Upper limited (Solder heat resistance) Lower limited (Solder wettability) Time * The temperature profiles given in this catalog are values measured when using the connector on a resin-based PC board. When performed reflow soldering on a metal board (iron, aluminum, etc.) or a metal table to mount on a FPC, make sure there is no deformation or discoloration of the connector before mounting. * Please contact our sales office when using a screen-printing thickness other than that recommended. 10 c Panasonic Corporation 2019 ACCTB69E 201906 Active Optical Connector V Series (1 channel-Bi-direction/2 channel-Uni-direction) Manual soldering * Set the soldering iron so that the tip temperature is less than that given in the table below. Table A Product name Soldering iron temperature SMD type connectors all products 300C within 5 sec. 350C within 3 sec. rin S iro old n e Apply the solder wire here g * Do not allow flux to spread onto the connector leads or PC board. This may lead to flux rising up to the connector inside. * Touch the soldering iron to the foot pattern. After the foot pattern and connector terminal are heated, apply the solder wire so it melts at the end of the connector terminals. * Be aware that soldering while applying a load on the connector terminals may cause improper operation of the connector. * Thoroughly clean the soldering iron. * Flux from the solder wire may get on the contact surfaces during soldering operations. After soldering, carefully check the contact surfaces and clean off any solder before use. * These connector is low profile type. If too much solder is supplied for hand soldering, It makes miss mating because of interference at soldering portion. Please pay attentions. Solder reworking * Finish reworking in one operation. * In case of soldering rework of bridges. Do not use supplementary solder flux. Doing so may cause contact problems by flux. * Keep the soldering iron tip temperature below the temperature given in Table A. Small angle as possible up to 45 degrees Terminal PC board Pattern Handling single components * Make sure not to drop or allow parts to fall from work bench. * Excessive force applied to the terminals could cause warping, come out, or weaken the adhesive strength of the solder. Handle with care. Cleaning flux from PC board * Do not insert or remove the connector when it is not soldered. Forcibly applied external pressure on the terminals can weaken the adherence of the terminals to the molded part or cause the terminals to lose their evenness. * Keep the cleaning solvent clean and prevent the connector contacts from contamination. * Some cleaning solvents are strong and they may dissolve the molded part and characters, so pure water passed liquid solvent is recommended. There is no need to clean this product. If cleaning it, pay attention to the following points to prevent the negative effect to the product. Handling the PC board Handling the PC board after mounting the connector When cutting or bending the PC board after mounting the connector, be careful that the soldered sections are subjected to excessive force. Storage of connectors * To prevent problems from voids or air pockets due to heat of reflow soldering, avoid storing the connectors in areas of high humidity. * Depending on the connector type, the color of the connector may vary from connector to connector depending on when it is produced. Some connectors may change color slightly if subjected to ultraviolet rays during storage. This is normal and will not affect the operation of the connector. Other Notes * Do not remove or insert the electrified connector (in the state of carrying current or applying voltage). * Dropping of the products or rough mishandling may bend or damage the terminals and possibly hinder proper reflow soldering. * Before soldering, try not to insert or remove the connector more than absolutely necessary. * When coating the PC board after soldering the connector to prevent the deterioration of insulation, perform the coating in such a way so that the coating does not get on the connector. The soldered areas should not be subjected to force. * When storing the connectors with the PC boards assembled and components already set, be careful not to stack them up so the connectors are subjected to excessive forces. * Avoid storing the connectors in locations with excessive dust. The dust may accumulate and cause improper connections at the contact surfaces. * There may be variations in the colors of products from different production lots. This is normal. * The connectors are not meant to be used for switching. * Product failures due to condensation are not covered by warranty. Please refer to "the latest product specifications" when designing your product. *Requests to customers: https://industrial.panasonic.com/ac/e/salespolicies/ Panasonic Corporation Electromechanical Control Business Division industrial.panasonic.com/ac/e/ 11 c Panasonic Corporation 2019 ACCTB69E 201906 Please contact .......... Electromechanical Control Business Division 1006, Oaza Kadoma, Kadoma-shi, Osaka 571-8506, Japan industral.panasonic.com/ac/e/ (c)Panasonic Corporation 2019 ACCTB69E 201906 Specifications are subject to change without notice.