ALLEN BRADLEY 20BD065A3AYNANC0 PowerFlex 700 AC Drive

Sell used ALLEN BRADLEY 20BD065A3AYNANC0 PowerFlex 700 AC Drive 65 A 50 Hp 20B SER. B F/W 10.001
Condition: Used
Price: $2800

ALLEN BRADLEY 20BD065A3AYNANC0 PowerFlex 700 AC Drive Description

Specifications:

Mechanical
Degree of protection (IP) IP20
Shock 15 G peak for 11 ms duration (±1.0 ms)
PWM frequency 4 kHz @ 650V DC
Vibration 0.152 mm (0.006 inch) displacement, 1 G peak
Electrical
Number of analogue outputs 2
Mains voltage 480 V
Integrated breaking resistance No
Brake IGBT Brake IGBT installed
Internal communication module No communication module
Fuse current rating 100 A @ 650V DC
Input voltage rating 480V AC, 3-phase, 60 Hz
AC input undervoltage trip 280V AC @ 480V
Bus voltage, nom 648V DC @ 480V
Bus undervoltage shutoff/fault 305V DC @ 480V
Bus overvoltage trip 810V DC @ 480V
Output voltage rating 0...460V AC @ 480V AC, 1-phase
Circuit breaker current rating, max 250 A @ 480V AC, 3-phase
Motor circuit protector current rating, max 100 A @ 480V AC, 3-phase
Output current rating, continuous 65 A @ 650V DC
Output current rating, 1 min 78 A @ 650V DC
Output current rating, 3 sec 104 A @ 650V DC
Logic control ride-thru 0.5 seconds minimum, 2 seconds typical
Brake resistor No internal brake resistor
Input current rating 69.7 A @ 650V DC
Documentation Manual
Carrier frequency 2, 4, 8, and 10 kHz. Drive rating based on 4 kHz
Encoder quadrature 90 degrees, ±27 degrees at 25 °C (77 °F)
AC input overvoltage trip 570V AC @ 480V
Input power rating 49.6 kVA @ 480V AC, 3-phase
Dual element time delay fuse current rating 80...125 A @ 480V AC, 3-phase
Non-time delay fuse current rating 80...250 A @ 480V AC, 3-phase
Digital input latency, typical 9.2 ms @ stop signal for SVC motor control
Heat sink thermistor Monitored by microprocessor overtemp trip
Digital input latency 9.2...16.0 ms @ start signal for SVC motor control
Drive to motor power ratio, max Recommended not greater than 2:1 ratio
Stop modes Multiple programmable stop modes including — Ramp, Coast, DC-brake, Fast brake, Ramp-to-hold and S-curve
Frequency accuracy Digital input: within ±0.01% of set output frequency
Acceleration/deceleration Two independently programmable accel and decel times. Each time can be programmed from 0...3600 seconds in 0.1 second increments
Analog input latency, typical 6.4 ms @ speed signal for SVC motor control
Number of digital inputs 6
Number of digital outputs 3
Number of analogue inputs 2
Internal watts loss 148 W @ 480V, 50 Hp normal duty (IP20, NEMA/UL Type 1)
Motor voltage, nom 460V @ 380...480V drive rating, 480V nominal line voltage
Supporting protocol for DeviceNet Yes
Human interface model LCD display full numeric keypad with programming keys
Max. output frequency 420 Hz
External watts loss 568 W @ 480V, 50 Hp normal duty (IP20, NEMA/UL Type 1)
Total watts loss 717 W @ 480V, 50 Hp normal duty (IP20, NEMA/UL Type 1)
Supporting protocol for EtherNet/IP Yes
Line voltage, nom 480V @ 380...480V drive rating, 460V nominal motor voltage
Mains frequency 60 Hz
Actual short circuit rating Determined by AIC rating of installed fuse/circuit breaker
Internal EMC filtering With EMC filter with common mode choke
Custom drive/firmware No custom firmware
Feedback option No feedback
Analog input latency 4.8...12.4 ms @ speed signal for SVC motor control
Drive full power range 460...528V @ 380...480V drive rating
Drive operating range 342...528V @ 380...480V drive rating
Torque regulation Without feedback: ±5 %, 600 rad/sec bandwidth
Enclosure type IP20/NEMA/UL Type 1
Output current rating 65 amps, 50 Hp normal duty, 40 Hp heavy duty, frame 3
Control options Vector control with 24V DC I/O
Drive overcurrent trip Instantaneous current limit: 220...300% of rated current (dependent on drive rating)
Efficiency 97.5% at rated amps, nominal line volts
Encoder supply 12V, 250 mA. 12V, 10 mA minimum inputs isolated with differential transmitter, 250 kHz maximum
Speed control-speed regulation Without feedback (Vector Control Mode): 0.1 % of base speed across 120:1 speed range, 120:1 operating range, 50 rad/sec bandwidth
Current limit capability Proactive current limit programmable from 20...160% of rated output current, Independently programmable proportional and integral gain
Selectable motor control Sensorless vector with full tuning. Standards V/Hz with full custom capability and vector control
Frequency control-speed regulation With slip compensation (Volts per Hertz mode): 0.5% of base speed across 40:1 speed range, 40:1 operating range, 10 rad/sec bandwidth
Input phases 3-phase input provides full rating for all drives. 1-phase operation possible on certain drives and provides 50 % of rated current. Frames 0...6: drive can be supplied as 6 pulse or 18 pulse in an engineered package.
Control method Sine coded PWM with programmable carrier frequency, ratings apply to all drives, the drive can be supplied as 6 pulse or 18 pulse in an engineered solution
Encoder requirements Encoders must be line driver type, quadrature (dual channel) or pulse (single channel), 8...15V DC output (4...6V DC when jumpers are in 5V position), single-ended or differential and capable of supplying a min. of 10 mA per channel, maximum input frequen
Number of phases output 3
Number of phases input 3
Relative symmetric net voltage tolerance 10 %
With control element Yes
Supporting protocol for LON Yes
Supporting protocol for TCP/IP Yes
Supporting protocol for PROFIBUS Yes
Supporting protocol for CAN Yes
Supporting protocol for Modbus Yes
Motor overload protection Frames 0...6 vector control: powerflex 700 drives with vector control, which is identified by a C or D in position 15 of the catalog number, provide class 10 motor overload protection according to NEC article 430 and motor overtemperature protection acco
Input frequency tolerance 47 Hz
Encoder duty cycle 50% ±10%
Displacement power factor (all drives) 0.98 across speed range
Short circuit rating, max 200000 amps symmetrical
Output voltage range 0 to rated motor voltage
Encoder type Incremental, dual channel
Power ride-thru 15 milliseconds at full load
Short circuit trip Phase-to-phase on drive output
Ground fault trip Phase-to-ground on drive output
Drive to motor power ratio, min Recommended not less than 1:2 ratio
Control logic noise immunity Showering arc transients upto 1500V peak
Line transients Up to 6000 volts peak per IEEE C62.41-1991
Intermittent overload 110% overload capability for up to 1 minute, 150% overload capability for up to 3 seconds
Environmental
Sound level Frame 3: 61 dB @ 120 CFM fan velocity
Altitude 1000 m (3300 ft.) maximum without derating
Degree of protection (NEMA) 1
Surrounding air temperature IP20, NEMA/UL type 1 (with top label): 0...50 °C (0...122 °F) @ frames 5…6, most ratings
Atmosphere Drive must not be installed in an area where the ambient atmosphere contains volatile or corrosive gas, vapors or dust, If the drive is not going to be installed immediately, store the drive where it is not exposed to a corrosive atmosphere
Operating temperature 50 °C @ 650V DC
Storage temperature -40 °C
Relative humidity 5...95% noncondensing
Pollution degree 1 according to EN 61800-5-1 No pollution occurs, only dry non-conductive pollution occurs, and has no influence
Pollution degree 4 according to EN 61800-5-1 The pollution generates persistent conductivity caused, for example, by conductive dust, rain or snow
Pollution degree 3 according to EN 61800-5-1 Conductive pollution occurs, dry non-conductive pollution occurs and becomes conductive due to condensation
Pollution degree 2 according to EN 61800-5-1 Normally only non-conductive pollution occurs, Occasionally a temporary conductivity, caused by condensation is expected when the drive is out of operation
Surrounding environment pollution degree All enclosures are acceptable for pollution degree 1 and 2, an enclosure that meets or exceeds IP54, NEMA/UL Type 12, is required for pollution degree 3 and 4
Dimensions (W x H x D) 222 x 517.5 x 200 mm
Weight 22.68 kg

 

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ALLEN BRADLEY 20BD065A3AYNANC0 Manual.PDF
ALLEN BRADLEY 20BD065A3AYNANC0 Technical Data.PDF
ALLEN BRADLEY 20BD065A3AYNANC0 Installation Instructions.PDF