PY0A150A0R62S01
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The PY0A150A0R62S01 servo amplifier boasts a rated output of 7500 watts, a supply voltage of 200 V AC (3-phase), a rated revolution speed of 1500 rpm, and a continuous stall torque of 54.9 N·m. Designed as part of the PY Super BL Servo Amplifiers by Sanyo Denki, it features a torque constant of 0.90 N·m/Arms.
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Product Description:
The PY0A150A0R62S01 is a servo amplifier made by Sanyo Denki. It is made for motion control systems that need to generate high power. The amplifier can handle a rated current of 150A and has cooling fins built right in. It is used in automated systems that need to be accurate and dependable.
The PY0A150A0R62S01 servo amplifier can be installed in two different configurations. A is 225 mm wide, B is more than 197 mm wide, C is 75 mm wide, and D is more than 142 mm wide. The addition of B to the front surface results in a larger size than 212 mm; however, all other dimensions remain unchanged. A total of 260 W of power is lost, as 150 W is directed to the PCB and 110 W is directed to the fan. The voltage is connected to the RST line using 8 AWG wire. The control power connections (r and t) are set to 16 AWG. The motor power connections U, V W need 8 AWG. Contact P on the regen resistor thermostat is wired with 14 AWG, while H1 and H2 are wired with 20 AWG. 20 AWG conductors connect RDY1 and RDY2 of the drive-ready relay. The encoder wire at CN2 is 28 AWG. CN1 contains 28 AWG wires. A remote operator is linked to the device and can use it.
The PY0A150A0R62S01 servo amplifier has built-in cooling fins and a wiring layout that keeps the high-power and low-power parts separate. The encoder signal and control signals are sent through 28 AWG wiring, which keeps the purity of the signals. Power terminals can handle the energy that motors and power buses need without getting too hot. It is stable to operate and effective in dissipating heat due to its overall form.
Frequently Asked Questions about PY0A150A0R62S01:
Q: Does PY0A150A0R62S01 have integrated cooling fins?
A: Yes, it has built-in cooling fins. They help manage thermal dissipation and maintain consistent internal temperature during continuous operation.
Q: Why does PY0A150A0R62S01 include drive drive-ready relay?
A: Drive ready relay provides operational status feedback. It supports external control systems to monitor the amplifier's readiness before motor startup.
Q: Do mounting options vary in PY0A150A0R62S01 usage?
A: Yes, it supports standard and front surface mounting. This allows flexible integration based on available panel space and design constraints.
Q: How does PY0A150A0R62S01 manage power dissipation?
A: Total dissipation is divided between the PCB and the heatsink. This reduces thermal stress on components and supports consistent long-term performance.
Q: Why does PY0A150A0R62S01 use 28 AWG for CN1?
A: 28 AWG is used for low-power signal control. It ensures proper communication with minimal voltage drop and reduced interference.
