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TSI Active Voltage Regulator AVR
1.5kVA - 166kVA
APPLICATIONS: Controls, Motors, Drives, Robotics, Medical, Lab, Extrusion, 3d Printing, CNC, All Plant and Process Equipment Affected by unstable voltage
SOLVES: Undervoltage, Overvoltage, Voltage Sags, Surges, unreliable utility voltage and internally-derived Voltage Issues.
Technology Choice: BEST IN CLASS - Pulse Width Modulated IGBT Insulated Gate BI Polar Transistor Converter. Internal Surge Suppression and noise filtering. Input Circuit Breakers and Load Overcurrent Protection.
Why?
Converter measures incoming voltage, corrects by adding or subtracting (Buck/Boosts) voltage to within +/- 0-3% output voltage range.
Power Correction Level 1: +/- 0-3% Variation on Output Power
Input Voltage Tolerance: +/- 20%
Sizes: 1.5kVA, 2kVA, 3kVA, 4kVA, 5kVA, 6kVA, 10kVA, 15kVA, 17kVA,23kVA, 30kVA, 33kVA, 46kVA, 53kVA, 66kVA, 104kVA, 125kVA, 150kVA, 166kVA
Input Voltage: 120V / 208V, 240V, 208V, 480V Single and Three Phase
Output Voltage Regulation: +/- 0=3%
Battery Runtimes: Voltage Regulation only - no battery storage
OPTIONS: Maintenance Bypass
CLASS: Active Voltage Correction, Type VRP
CORRECTS: Voltage Sags to 20% of nominal. Holds output voltage constant within +/- 3% output.
APPLICATIONS: Sensitive Instruments, Labs, Robotics, Plant and Process, Semiconductors, All Processes and Controls.
ROI:
Reduced PCB and Board Failures, Reduced Downtime, Reduced Maintenance Costs. Typically 3-5 Years.
How a High Speed Pulse Width Modulated Regulator System Works
Highest Efficiency Design in AVR Technology Compared to Tap Switch, Servo and Dual Conversion
Active Voltage Regulator Technology
The TSI VRP Model Active Voltage Regulator provides a significant improvement on the slow traditional, electromechanical AVR, the electronic tap-switching AVR, and the dual-conversion AVR. It provides many of the attractive features of these technologies without trading off performance and efficiency. Today's Sensitive Controls Environment requires a responsive, efficient, and consistent voltage sterilization source.
Pulse Width Modulated with Intergate Bi-Polar Transistor Converter
Pulse Width Modulated with Intergate BI Polar Transistor Converter
The PWM topology is a buck-boost transformer with a primary to secondary ratio of 5:1 for a voltage correction of +/-20% (Figure Above). The input phase is connected to one end of the secondary, while the critical load is connected to the other end of the secondary with the current returning to the source via the neutral wire. The control voltage is imposed on the primary winding by connecting one end of the primary to the incoming phase, while the other end of the primary is connected to the neutral. In this manner, 20% of the input voltage will be added to the secondary winding. If the connections are reversed, the voltage will drop 20% as the magnetic flux imposed by the primary winding is bucking the secondary winding. Input Circuit breakers provide for component and load overcurrent protection.
BENEFITS of TSI DESIGN
- Precision Voltage Regulation
- No Switching of Power Path
- Automatic Bypass
- Over 96% Efficiency
- Meets UL 60950 Requirements.
- Overcurrent Protection
- Compact Design
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INSTALLATION: Single Phase AVR Systems
120V Single Phase
1.5kVA - 120V in/out
Input 6’ Power cord Nema 5-15P, L5-15P, or
IEC 60320 C14
Output 4ea Nema 5-15R or IEC 60320 C13
Hardwire input or output not available
(Input circuit breaker Required 15 Amp)
2kVA - 120V in/out
6’ Input Power cord with Nema 5-20P, L5-20P, or IEC 60320 C20
Output Receptacle Choices Nema 5-20P, L5-20R, or IEC 60320 C19
Hardwired Connection input/output available
(Input circuit breaker Required 20 Amp)
3kVA - 120V in/out
6’ Input Power cord with Nema 5-30P, L5-30P
Output Receptacle Choices Nema 5-30P, L5-30R
Hardwired Connection input/output available
(Input circuit breaker Required 30 Amp)
5kVA - 120V in/out
6’ Input Power cord with Nema 5-50P
Output Receptacle Choices Nema 5-50P
Hardwired Connection input/output
(Input circuit breaker Required 50 Amp)
8kVA - 120V in/out
Hardwired Connection input/output
(Input circuit breaker Required 80 Amp)
10kVA - 120V in/out
Hardwired Connection input/output
(Input circuit breaker Required 100 Amp)
208V Single Phase
1.7kVA - 208V in/out
Input 6’ Power cord with IEC 60320 C14
Output IEC 60320 C13 (OR)
Hardwired Connection input/output available
(Input circuit breaker Required 10 Amp)
2.5kVA - 208V in/out
6’ Input Power cord with Nema 6-15P, L6-15P, or IEC 60320 C20
Output Receptacle Choices Nema 6-15R, L6-15R, or IEC 60320 C19
Hardwired Connection input/output available
(Input circuit breaker Required 15 Amp)
3.3kVAkVA - 208V in/out
6’ Input Power cord with Nema 6-20P
Output Receptacle Choices Nema 6-20R
Hardwired Connection input/output not available
(Input circuit breaker Required 20 Amp)
5kVA - 208V in/out
6’ Input Power cord with Nema 6-30P, L6-30P
Output Receptacle Choices Nema 6-30R, L6-30R
Hardwired Connection input/output available
(Input circuit breaker Required 30 Amp)
8kVA - 208V in/out
6’ Input Power cord with Nema 6-50P, L6-50P
Output Receptacle Choices Nema 6-50R, L6-50R
Hardwired Connection input/output available
(Input circuit breaker Required 50 Amp)
15kVA - 208V in/out
Hardwired Connection input/output
(Input circuit breaker Required 90 Amp)
120/240V / 240V - 1-Phase
2kVA - 240V in/out
6’ Input Power cord with IEC 60320 C14
Output IEC 60320 C13 (OR)
Hardwired Connection input/output
(Input circuit breaker Required 10 Amp)
4kVA - 120V/240 Split or 240V in/out
6’ Input Power cord with L6-20P Input Receptacle
L6-20R (Twist-Lock) Output Power
Hardwired Connection input/output not available
(Input circuit breaker Required 20 Amp)
6kVA - 120V/240 Split or 240V in/out
6’ Input Power cord with L6-30P Input Receptacle
L6-30R (Twist-Lock) Output Power
Hardwired Connection input/output
(Input circuit breaker Required 30 Amp)
10kVA, 15kVA -120V/240 Split Phase
Hardwired Connection input/output
(10kVA Input circuit breaker Required 50 Amp)
(15kVA Input circuit breaker Required 80 Amp)
10kVA, 15kVA - 240V in/out
Hardwired Connection input/output
(8kVA Input circuit breaker Required 40 Amp)
(10kVA Input circuit breaker Required 50 Amp)
(15kVA Input circuit breaker Required 80 Amp)
(17kVA Input circuit breaker Required 90 Amp)
INSTALLATION: Three Phase AVR Systems
120/208V 3-Phase
6kVA - 120V/208V in/out
Hardwired Connection input/output
(Input circuit breaker Required 20 Amp)
9kVA - 120V/208V in/out
Hardwired Connection input/output
Option: NEMA L21-30P in and out
(Input circuit breaker Required 30 Amp)
14kVA - 120V/208V in/out
Hardwired Connection input/output
(Input circuit breaker Required 50 Amp)
23kVA - 120V/208V in/out
Hardwired Connection input/output
(Input circuit breaker Required 80 Amp)
29kVA - 120V/208V in/out
Hardwired Connection input/output
(Input circuit breaker Required 100 Amp)
50kVA - 120V/208V in/out
Hardwired Connection input/output
(Input circuit breaker Required 150 Amp)
400V 3-Phase
6kVA - 400V/415V in/out
Hardwired Connection input/output
(Input circuit breaker Required 20 Amp)
8kVA - 400V/415V in/out
Hardwired Connection input/output
Option: NEMA L21-30P in and out
(Input circuit breaker Required 30 Amp)
17kVA - 400V/415V in/out
Hardwired Connection input/output
(Input circuit breaker Required 50 Amp)
24kVA - 400V/415V in/out
Hardwired Connection input/output
(Input circuit breaker Required 100 Amp)
28kVA - 400V/415V in/out
Hardwired Connection input/output
(28kVA Input circuit breaker Required 50 Amp)
44kVA - 400V/415V in/out
Hardwired Connection input/output
(44kVA Input circuit breaker Required 80 Amp)
55kVA, - 400V/415V in/out
Hardwired Connection input/output
(55kVA Input circuit breaker Required 100 Amp)
83kVA - 400V/415V in/out
Hardwired Connection input/output
(83kVA Input circuit breaker Required 150 Amp)
104kVA - 400V/415V in/out
Hardwired Connection input/output
(104kVA Input circuit breaker Required 175 Amp)
480V 3-Phase
10kVA - 480V in/out
Hardwired Connection input/output
(Input circuit breaker Required 15 Amp)
20kVA - 480V in/out
Hardwired Connection input/output
(Input circuit breaker Required 30 Amp)
27kVA - 480V in/out
Hardwired Connection input/output
(Input circuit breaker Required 100 Amp)
33kVA - 480V in/out
Hardwired Connection input/output
(Input circuit breaker Required 50 Amp)
53kVA - 480V in/out
Hardwired Connection input/output
(Input circuit breaker Required 80 Amp)
66kVA - 480V in/out
Hardwired Connection input/output
(Input circuit breaker Required 100 Amp)
125kVA - 480V in/out
Hardwired Connection input/output
(Input circuit breaker Required 175 Amp)
150kVA - 480V in/out
Hardwired Connection input/output
(Input circuit breaker Required 200 Amp)
166kVA - 480V in/out
Hardwired Connection input/output
(Input circuit breaker Required 220 Amp)
AVR Model Voltage Performance
120V Power Correction
- Input Voltage Swings of 95~145 VAC
- Critical Input Voltage Range: 79% lagging to +120%
- Corrects to: 97%/103% Voltage Output
- Corrects 20% Swing in Voltage from nominal 120V.
Response Time
- 10MS> (1/2 Line Cycle)
230V Power Correction
- Input Voltage Swings of 184~276 VAC
- Critical Input Voltage Range: 79% lagging to +120%
- Corrects to: 97%/103% Voltage Output
- Corrects 20% Swing in Voltage from nominal 230V.
Response Time
- 10MS> (1/2 Line Cycle)
240V Power Correction
- 240V Input Voltage Swings of 192~288 VAC
- Critical Input Voltage Range: 79% lagging to +120%
- Corrects to: 97%/103% Voltage Output
- Can Correct 20% Swing in Voltage from nominal 240V.
Response Time
- 10MS> (1/2 Line Cycle)
Snapshot, Tech Specs, PDFs
Download our brochure and user guides to learn more about our products.
FGC Customer Advantage
Comprehensive Lifetime Service Support for your AVR Equipment
7 x 24 Emergency Service Response
24x7 emergency service Services through FGC Services and Response Platform
Preventative Maintenance Plans Provided by FGC Services
Keep all your systems free of downtime with Preventative Maintenance Programs.
Plans include Full Service, Preventative Maintenance Plus Emergency Response, and PM Only.
100% parts coverage
Parts coverage inside your warranty period, extended plans available for Annual or Multi-Year Programs
Asset Management Program
Roll all your Critical Assets and Maintenance Programs into one location - Facility Keys Preferred Platform
7x24 Emergency Response
National Service Coverage for Emergency Calls, On-Site Response, and Remediation.
Voltage Regulator vs. UPS: What are my Choices?
The differences between AVR, AVC, and UPS mainly depend on the construct of your electrical loads, and the power issues you wish to correct.
Correcting Voltage Not Outages
Most Data Center Designed UPS Systems are built to withstand minutes if not longer of complete power absence. Being designed to make almost perfect power until it is not there, systems are designed with highly efficient inverter systems and other components. Loads on these systems are often constant, non-reactive loads, and low in-rush. These systems, however, does not perform well in an active load environment, high in-rush current environment, and do not take in large input windows of voltage and repair them.
Ferrups Voltage Regulator UPS
Ask about combination Voltage Regulator UPS
Remote Diagnostic Services for Rapid Response
Uptime assurance
- Continuous monitoring for early detection of trends and operating anomalies
- Analysis and interpretation of alarm and status messages
Rapid incident response
- Automatic transmission of data for analysis
- Concurrent diagnosis and dispatch of engineer to site
- Shipment of parts for corrective maintenance
Increased insight and ease of management
- Notification of operating conditions that may impact system health
- Periodic trend and analysis reports
- Integration of remote and on-site services to ensure business continuity
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