PY0A015A0M21P00
Wake Industrial LLC is not an authorized distributor of this product.
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The PY0A015A0M21P00 servo amplifier is duct cooled and offers approximately 0.3 kW rated output. Manufactured by Sanyo Denki as part of the PY Super BL Servo Amplifiers series, it supports speed, torque, and position control functions. It also features a built-in dynamic brake for emergencies.
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Product Description:
Sanyo Denki produced the PY0A015A0M21P00 servo amplifier to function as a motor control product. It is designed to control motor output precisely. The amplifier operates through the consumption of up to 15 amps but lacks built-in cooling elements.
The PY0A015A0M21P00 servo amplifier can be mounted either normally or on the front surface. The sizes are 225 mm (A) and 25 mm (C) for normal mounting. When mounted on the front surface, A is still 225 mm, B is longer than 205 mm, and C is 25 mm. The servo amplifier can lose a total of 19 W of power. The motor output along with control power and bus power receive their wires from the 16 AWG wires. Two 20-AWG terminals compose a wire section of the regenerative resistor thermostat operating through connections at 16 AWG and H2. The production lines carrying the drive-ready relay signals known as RDY1 and RDY2 include wires of 20 AWG thickness. The power source can handle 0.3 KVA for motor model P30B04010D and 0.8 KVA for motor model P50N05020D. It can handle 2.1 A on the bus circuit, and the inrush current at 600 ms is 18A. The control circuit of the amplifier operates at 40 VA while drawing 0.2 A of current. At 1 ms, it has an inrush current of 40A. The amplifier can handle up to 220 W of power from AI input and 20 W of power from its own recovery.
The PY0A015A0M21P00 servo amplifier's dynamic brake constants have t₀ values of 0.0100 sec and 0.0065 sec for the two motor types. ± is equal to 25 and 9.78. 12.2×10ⁿ and 3.86×10⁷ are the β numbers. The product can be purchased from Wake Industrial.
Frequently Asked Questions about PY0A015A0M21P00:
Q: Why does PY0A015A0M21P00 use 28 AWG encoder wiring?
A: 28 AWG encoder wiring reduces space requirements and simplifies routing. It is suitable for low-current signal transmission in compact systems.
Q: Does PY0A015A0M21P00 support remote operator connectivity?
A: Yes, the amplifier includes remote operator connectivity. It allows external operation and monitoring without direct access to the main unit.
Q: How does PY0A015A0M21P00 manage 40A inrush current?
A: The design supports 40A at 1 ms to handle startup surges. This prevents circuit faults during the control circuit power-on.
Q: Why does PY0A015A0M21P00 lack a cooling fins design?
A: The amplifier uses efficient internal power handling at 19 W. This reduces the need for external cooling elements like fins.
Q: Do PY0A015A0M21P00 terminals use 16 AWG wiring?
A: Yes, 16 AWG is used for power terminals. It supports stable current flow and reduces voltage drops in high-demand circuits.
