Tesla TI2500GPU-24 User manual
Tesla™ Industries, Inc.
www.teslaind.com
Email: tesla1@teslaind.com
Headquarters: (302) 324-8910
101 Centerpoint Blvd. New Castle, DE 19720 USA
Western Regional Ofce: (775) 622-8801
9475 Double R Blvd. Suite 2, Reno, NV 89521 USA
Innumerable Vehicle Starts
•3000 peak starting amps
•System back-charges from the started vehicle’s engine
•Ideal power for motor pools and deployment
Pure Power
•No spikes or surges
•71 amp hours (1736 watt hours) with ac power from each connector
•46 amp hours (1024 watt hours) of rechargeable battery power without ac from each connector
• 25 amp hours of continuous dc power from each connector
(50 amps if used with optional Y-Cable Assembly TI2000-071)
Maintenance-Free Performance
• Currently being used with the Bell AH-1 Super Cobra
• Designed for 24/48V simultaneous starts
• Ideal for hangars, motor pools, and deployments
• Perfect for testing and troubleshooting (avionics, TMDE, electronics, and hydraulics)
• One person can easily maneuver and operate the unit
• Will charge and maintain vehicle batteries when unit is left connected to vehicle (ac power required)
• Safe, easy, maintenance-free operation
•“Push to Test” feature provides instant state of charge
TI2500 GPU-24
Power Anytime, Anywhere
TI2500GPU-24 (Aviation)
NSN: 6130-01-452-2777 (CL IX)
TIMV2500GPU-24 (Mechanized)
NSN: 6130-01-475-5319 (CL IX)
MADE IN USA
Tesla™ Industries, Inc. • 101 Centerpoint Blvd. New Castle, DE 19720 • 9475 Double R Blvd. Suite 2, Reno, NV 89521 USA • www.teslaind.com 11-13-14
Technical Specications:
DC Output 25 amps continuous from each connector
(50 amps if used with optional Y-cable assembly TI2000-071)
71 amp hours (1736 watt hours) with ac power from each connector
46 amp hours (1024 watt hours) of rechargeable battery power without ac
from each connector
Peak Starting Amps 3000 peak starting amps or 6000 peak starting amps
AC Input Power • Operates and charges from Single Phase 100-260 Vac, 50/60 Hz
• 20 amps @ 120 Vac 60 Hz
• 10 amps @ 240 Vac 50/60 Hz
Recharging Rate 115 minutes (from full discharge) @ 25°C
Storage Temperature -65°C to 105°C (-85°F to 221°F)
Operating Temperature w/o AC Power -40°C to 60°C (-40°F to 140°F)
Operating Temperature w/ AC Power -40°C to 55°C (-40°F to 131°F)
Weight 235 lbs (106.6 kg)
Warranty 2 years (3 years optional)
Dimensions and Technical Specications
* All dimensions are in inches [millimeters]
19.25 [488.95]
15.97 [405.64]
37.28 [946.91]
TI7000-026 Shipping Case TI7000-142 Protective Cover TI2000-071 Y-Cable Assembly
OPTIONAL
ACCESSORIES
All congurations INCLUDE
TI25000-211
NEMA 515P North American Line Cord
TI2500 GPU-24
NSN: 6130-01-452-2777 (CL IX)
TIMV2500 GPU-24
NSN: 6130-01-475-5319 (CL IX)
INCLUDES
TI2007-208
8ft. DC Aviation Cable Assembly
TI2007-315
15ft. DC NATO Cable Assembly
Tesla™TI2500 GPU-24
User Manual
Built Smart...Proven Tough
Power Anytime, Anywhere
Tesla Industries, Inc.
101 Centerpoint Blvd.
New Castle, DE 19720
(302) 324-8910 Phone
(302) 324-8912 Fax
www.teslaind.com
TESLA
NOTE: All users must read this entire manual prior
to operating the TI2500 GPU-24.
The TI2500 GPU-24 is a maintenance-free and sealed unit. No repairs are authorized. Warranty will be
voided if unit is tampered with in any way, or if unauthorized repairs are made. For technical support please
contact:
TESLA™ INDUSTRIES INCORPORATED
101 CENTERPOINT BLVD.
CENTERPOINT INDUSTRIAL PARK
NEW CASTLE, DELAWARE 19720
PHONE: (302) 324-8910
FAX: (302) 324-8912
WEBSITE: www.teslaind.com
EMAIL: tesla1@teslaind.com
Improper use or failure to follow instructions in this user manual can result in unit damage and/or injury or
death by electrical shock.
Any attempts to open or examine the inside of the TI2500 GPU-24 via a tool or device (borescope, probe,
etc.) can result in unit failure and/or injury by electrical shock. This GPU is maintenance free and should not
be opened or disassembled for any reason.
Always protect the unit from short circuit.
Shipping Hazards: The TI2500 GPU-24 contains sealed, dry cell rechargeable batteries that do not pose a
shipping hazard.
No part of this manual may be reproduced or transmitted in any form or by any means, electronic or
mechanical, including photocopying, recording, or any information storage and retrieval system, without prior
written permission from Tesla™ Industries, Inc.
Copyright © 2014 by Tesla™ Industries, Incorporated. All rights reserved.
SHOCK HAZARD POTENTIAL
CAUTION
11-20-14
Page 1 of 2
®™
INFORMATION ONLY - PL E A S E R E A D SE C T I O N X
SECTION I - PR O D U C T A N D MA N U F A C T U R E R ID E N T I T Y
Product Identity:
Tesla®™ Turbo Start®™ Ground Power Unit (GPU) and Micro Power Unit (MPU)
Containing Dry Cell (Starved Electrolyte) Batteries
Used on Aviation/Military Application
Manufacturer’s Name andAddress: Emergency Telephone Number:
Tesla Industries Inc. (302)324-8910
101 Centerpoint Blvd. Fax: (302)324-8912
New Castle, Delaware 19720 www.Teslaind.com
SECTION II - IN G R E D I E N T S
Hazardous Components CAS # OSHA PEL-TWA % (By weight)
Lead 7439-92-1 50 µg/m345 - 60 %
Lead Dioxide 1309-60-0 50 µg/m315 - 25%
Sulfuric Acid Electrolyte 7664-93-9 1.0 mg/m315 - 20%
Non-Hazardous Materials N/A N/A 5 - 10%
Revision Date: April 2, 2014
SECTION III - PH Y S I C A L /CH E M I C A L CH A R A C T E R I S T I C S
Boiling Point - N/A Specifi c Gravity (H2O=1) - NA
Vapor Pressure (mm Hg.) - N/A Melting Point - N/A
Solubility in Water - N/A Appearance & Color - N/A
SECTION IV - FI R E & EX P L O S I O N HA Z A R D DA T A
Flash Point (Method Used): N/A Flammable Limits: N/A LEL: N/A UEL: N/A
Extinguishing Media: Multipurpose Dry chemical CO2or water spray.
Special Fire Fighting Procedures: Cool GPU/MPU exterior to prevent rupture. Acid mists and vapors in a fi re are toxic and corrosive.
Unusual Fire and Explosion Hazards: Hydrogen gas may be produced and may explode if ignited. Remove all sources of ignition.
SECTION V - RE A C T I V I T Y DA T A A N D SH I P P I N G /HA N D L I N G EL E C T R I C A L SA F E T Y
Stability: Stable
Conditions to Avoid: Avoid shorting, high levels of short circuit current can be developed across the battery terminals. Do not rest tools or cables on the
battery. Avoid over-charging. Use only approved charging methods. Do not charge in gas tight containers.
SECTION VI - HE A L T H HA Z A R D DA T A
Routes of Entry: N/A Health Hazards (Acute & Chronic): N/A
Emergency & First Aid Procedures: Battery contains acid electrolyte, which is absorbed in the separator material. If battery case is punctured,
completely fl ush any released material from skin or eyes with water.
Proposition 65: Warning: Battery posts, terminals and related accessories contain lead and lead compounds, chemicals
known to the State of California to cause cancer and reproductive harm. Batteries also contain other chemical
known to the State of California to cause cancer. Wash hands after handling
Page 2 of 2
SECTION VII - PR E C A U T I O N S F O R SA F E HA N D L I N G & US E
Steps to be taken in case material is
released or spilled Avoid contact with acid materials. Use soda ash or lime to neutralize. Flush with water.
Waste Disposal Method Dispose of in accordance with Federal, State, & Local Regulations. Do not incinerate. Batteries should be
shipped to a reclamation facility for recovery of the metal and plastic components as the proper method of
waste management. Contact distributor for appropriate product return procedures.
SECTION VIII - CO N T R O L ME A S U R E S - NO T AP P L I C A B L E
SECTION IX - OT H E R RE G U L A T O R Y IN F O R M A T I O N
Tesla™ Industries GPU/MPU batteries are starved electrolyte batteries, which means the electrolyte is absorbed in the separator material. The batteries
are also sealed.
NFPA Hazard Rating for Sulfuric Acid:
Health (Blue) = 3 Flammability (Red) = 0 Reactivity (Yellow) = 2 Sulfuric Acid is Water Reactive if concentrated.
U.S. DOT: Tesla™ Industries GPU/MPU batteries are classifi ed as Nonspillable. They have been tested and meet the nonspillable criteria listed in 49
CFR § 173.159(f) and 173.159a(d)(1).
Nonspillable batteries are excepted from 49 CFR Subchapter C requirements, provided that the following criteria are met:
The batteries must be securely packed in strong outer packagings and meet the requirements of 49 CFR § 173.159a. 1. The batteries’ terminals must be protected against short circuit.2.
Each battery and their out packaging must be plainly and durably marked “NONSPILLABLE” or “NONSPILLABLE BATTERY”.3.
The exception from 49 CFR, Subchapter C means shipping papers need not show proper shipping name, hazard class, UN number and packing group.
Hazardous labels are not required when transporting a nonspillable battery.
IATA: Tesla™ Industries GPU/MPU batteries have been tested and meet the nonspillable criteria listed in IATA Packing Instruction 872 and Special
Provision A67. Nonspillable batteries must be packed according to IATA Packing Instructions 872. This means shipping papers need not show proper
shipping name, hazard class, UN number and packing group. Hazardous labels are not required when transporting a nonspillable battery.
These batteries are excepted from all IATA regulations provided that the batteries are packed in a suitable out packaging and their terminals are pro-
tected against short circuits.
IMDG: Tesla™ Industries GPU/MPU batteries have been tested and meet the nonspillable criteria listed in Special Provision 238. Non-spillable batteries
must be packed according to IMDG Packing Instruction P003. This means shipping papers need not show proper shipping name, hazard class, UN num-
ber and packing group. Hazardous labels are not required when transporting an nonspillable battery. These batteries are excepted from all IMDG codes
provided that the batteries are packed in a suitable out packaging and their terminals are protected against short circuits per PP16.
RCRA: Spent lead-acid batteries are not regulated as hazardous waste by the EPA when recycled, however state and international regulations may
vary.
CERCLA (Superfund) and EPCRA:
Reportable Quantity (RQ) for spilled 100% sulfuric acid under CERCLA (Superfund) and EPCRA(Emergency Planning Community(a) Right to Know Act) is 1,000 lbs. State and local reportable quantities for spilled sulfuric acid may vary.
Sulfuric acid is a listed “Extremely Hazardous Substance” under EPCRA, with a Threshold Planning Quantity (TPQ) of 1,000 lbs.(b)
EPCRA Section 302 notifi cation is required if 1,000 lbs. or more of sulfuric acid is present at one site.(c) EPCRA Section 312 Tier 2 reporting is required for batteries if sulfuric acid is present in quantities of 500 lbs. or more and/or if lead is(d) present in quantities of 10,000 lbs. or more.
Supplier Notifi cation: this product contains toxic chemicals, which may be reportable under EPCRA Section 313 Toxic Chemical Release (e) inventory (Form R) requirements.
If you are a manufacturing facility under SIC codes 20 through 39, the following information is provided to enable you to complete the required reports:
Toxic Chemicals CAS Number Approximate % by Wt.
Lead 7439-92-1 45-60
Sulfuric Acid 7664-93-9 15-20
SECTION X - AD D I T I O N A L IN F O R M A T I O N
The Tesla™ Industries GPU/MPU sealed lead acid battery is determined to be an “article” according to the OSHA Hazard Communication Standard and
is thereby excluded from any requirements of the standard. The Material Safety Data Sheet is therefore supplied for informational purposes only.
The information and recommendations contained herein have been compiled from sources believed to be reliable and represent current opinion on the
subject. No warranty, guarantee, or representation is made by Tesla™ Industries, as to the absolute correctness or suffi ciency of any representation
contained herein and Tesla™ Industries assumes no responsibility in connection therewith, nor can it be assumed that all acceptable safety measures
are contained herein, or that additional measures may not be required under particular or exceptional conditions ore circumstances.
*N/A or Not Applicable - Not applicable for fi nished product used in normal conditions.
TI2500 GPU-24
Table of Contents
Section 1 – Safety Review 1
1.1 – Safety Notices 1
1.2 – Symbols 1
1.3 – Hazards 2
1.4 – Important Safety Precautions 3
1.5 – Extreme Environments 3
Section 2 – Product Overview 4
2.1 – Introduction 4
2.2 – Indication of Terms: Shall, Should, May 4
2.3 – Front Panel Overview 5
2.4 – General Specications 6
2.5 – Physical Dimensions 7
2.6 – Airow Ports 7
2.7 – Operating Position 8
2.8 – AC Input Circuit Breakers 9
2.9 – AC Input Connector 9
2.10 – Changing Input Voltage Selector Switch 10
2.11 – DC Output Connectors 10
2.12 – “Push to Test” button and LED Status Indicator 11
Section 3 – Operating Procedures 12
3.1 – Operating Procedures 12
3.2 – General 12
3.3 – Operating Limits and Restrictions 12
3.4 – Performance 12
3.5 – Engine Starting Power 12
3.6 – Temperature Specications 13
3.7 – Environmental 14
3.8 – Normal Functional Test Procedures 15-16
3.9 - Pre-Operation 17
3.10 – Transporting Unit 17
3.11 – Regulated 28.5 Vdc Output Ground 18-20
3.12 – Operating with Digital Volt/Amp Meter 20
3.13 – Regulated AC Power 21
3.14 – Charging Unit 21
TI2500 GPU-24
Section 4 – Post Operation 22
4.1 – General 22
4.2 – After Use 22
4.3 – Power Cell Recharge 22-23
Section 5 – Unit Care and Maintenance 24
5.1 – Unit Care 24
5.2 – Unit Servicing 25
5.3 – Packaging and Shipping 25
Section 6 – Troubleshooting and FAQ 26
6.1 - Frequently Asked Questions 26-27
6.2 - Basic Usage/Operation Questions 28
6.3 - Basic Troubleshooting 29-30
Section 7 – Performance Data 31
7.1 – Purpose 31
7.2 – General 31
7.3 – Data Basis 31
7.4 – Specic Conditions 31
7.5 – General Conditions 31
7.6 – Temperature Conversion Chart 32
7.7 – Output Voltage 33
7.8 – Maximum Output Current 33
Section 8 – Optional Accessories 34
8.1 – Shipping Case 34
8.2 – GPU Protective Covers 34
8.3 - TI2000-071 Y-Cable Assembly 34
8.4 – Digital Volt/Amp Meter 35
8.5 – Tesla™ AC Line Cords 35
8.6 – Tesla™ DC Replacement Contacts and Tools 36
8.7 – Tesla™ GPU Tires 36
Appendix 37-41
Repair Form 42
TI2500 GPU-24
Abbreviations and Symbols
Abbreviations that may be used within the text, headings and titles of this manual.
LIST OF ABBREVIATIONS
Abbreviation Defi nition
ac Alternating Current
AFT Air ow Technology
AWG American Wire Gauge
amp or A Ampere
cont Continuous
°C Degree Celsius
°F Degree Fahrenheit
dc Direct Current
EFF Ef ciency
ft Feet
FWD Forward
GPU Ground Power Unit
Hr Hour
Hz Hertz
kg Kilograms
kHz Kilohertz
kW Kilowatts
LED Light Emitting Diode
max Maximum
MΩ megaohm
min Minimum
MPU Micro Power Unit
NEMA National Electrical Manufacturers Association
Ω ohm
PF power factor
PFC power factor correction
rms root-mean-square
THD Total Harmonic Distortion
TMDE Test, Measurement, & Diagnostic Equipment
UAV Unmanned aerial vehicle
Vac Volts, Alternating Current
Vdc Volts, Direct Current
W watts
TI2500 GPU-24 1
Figure 1.2.1 – Different types of hazard and caution symbols
1.1 - Safety Notices
Safety notices appear throughout this manual to alert the user to important information regarding proper
installation, operation, maintenance and storage of the unit. These notices, as illustrated below, contain a
key word that indicates the level of hazard and a triangular icon that indicates the speci c type of hazard.
WARNING Indicates a condition, operating procedure or practice, which if not
adhered to could result in serious injury or death.
CAUTION Indicates a condition or operating procedure, which if not strictly
adhered to could result in damage or destruction of equipment.
NOTE Indicates a condition, operating procedure or practice, which is
essential to highlight.
1.2 - Symbols
The following symbols will appear within the warning triangles to alert the user to the speci c type of danger
or hazard.
General Warning Electrical Hazard Explosion Hazard Fire Hazard
Battery Warning Guard from Moisture
!
Section 1 – Safety Review
!
!
!
TI2500 GPU-24
2
1Safety Review
1.3 – Hazards
WARNING Shock Hazard Potential
WARNING Shock Hazard Potential
Severe injury or death from electrical shock can occur when damp electrical plugs are connected to the
unit. Make sure the unit is turned off before making any connections. Failure to use proper grounding can
cause potential shock hazard! In different countries, the power cord may require the use of a plug adapter
to achieve plug style compatibility for operation. Use only adapters with proper grounding mechanism.
CAUTION Unit Damage Potential
Severe injury or death from electrical shock may occur if either the
user or the unit is wet while the operating unit is connected to a power
source. Be sure to disconnect ac power from the ac source if the unit
has come into contact with water. If AC Input Circuit Breaker has tripped
due to water in ltration, DO NOT try to reset it with the ac line voltage
attached.
Figure 1.3.1 – Proper Ground
Grounded Plug with Grounding Pin
Figure 1.3.2 – Proper Ground
Adapter with Grounding Mechanism
(Secured to Outlet)
Figure 1.3.3 – Improper Ground
Plug with No Grounding Pin
The unit will be damaged if unapproved ac power is applied. Check
the Input Voltage Selector Switch window (outlined in blue) to ensure
the switch setting (115V or 230V) matches the ac power source
(hangar wall, ight line ac power) prior to connecting the unit for
recharging.
Figure 1.3.4 – TI2500 GPU-24
Input Voltage Selector Switch
TI2500 GPU-24 3
1
Safety Review
1.4 – Important Safety Precautions
WARNING Fire/Explosion Hazard Potential
Severe injury or death from re or explosion can occur if electrical sparks are produced near fuel vapors. DO
NOT CONNECT ac power supply WHILE FUELING. AC power functions of unit shall not be operated during any
fuel handling operation. Power output is restricted to dc power only.
1.5 – Extreme Environments
CAUTION Unit Damage Potential
The unit is equipped with a charger temperature switch that automatically disables the unit when the internal
temperature exceeds 150°F (65°C). This protects the unit from overheating and damage. If the unit shuts
down, move the unit into a cooler environment such as shade or air conditioning when possible. Perform a
full function test after the unit has been allowed to cool prior to use.
TI2500 GPU-24
4
Section 2 – Product Overview
2.1 – Introduction
Thank you and congratulations on the purchase of your new TI2500 GPU-24 Ground Power Unit.
The TI2500 GPU-24 is intended to provide dc electrical ground power for aircraft ight line, maintenance,
and ground support operations. The unit is designed to provide 24 volt dc electrical power output for vehicle
and aircraft engine starting and 24 or 28.5 volts dc electrical support for ground maintenance, avionics/
electrical troubleshooting and testing. The observance of procedures, limitations and performance criteria
is essential to ensure peak operating efciency and to maximize operational capabilities and life of the
TI2500 GPU-24.
This manual contains the complete operating instructions and procedures for the TI2500 GPU-24 that the
end user will need to safely and efciently operate this GPU.
Figure 2.1.1 – TI2500 GPU-24
2.2 – Indication of Terms: Shall, Should and May
Within this technical manual the word “shall” is used to indicate a mandatory requirement for proper
operation and warranty purposes. The word “should” is used to indicate a non-mandatory but preferred
method of accomplishment. The word “may” is used to indicate an acceptable method of accomplishment.
TI2500 GPU-24 5
2
Product Overview
2.3 – Front Panel Overview
AC Input Circuit Breakers1. – Trips if over-
current fault condition occurs.
“Push to Test” Button2. – Displays current
battery charge state when pressed.
24 Vdc Output Connectors3. – Provides 24 Vdc
to 28.5 Vdc @ 25 A (50 A possible when using
Y-cable connector TI2000-071).
Telescopic Handle4. – Allows for easy transport
of unit.
Vdc Capacity Meters5. – Indicates the battery
charge state/power output status.
AC Input Connector6. – Connects to Single
Phase 95-260 Vac line voltage.
Input Voltage Selector Switch7. – Allows unit
to operate within voltage range of either 100-
130 Vac or 200-260 Vac
1
2
6
7
5
33
4
TI2500 GPU-24
6
2Product Overview
Electrical
Power Cell:
Dry, High Rate Discharge, Rechargeable , Maintenance-free•
DC Output:
3000 peak starting amps or 6000 peak starting amps •
25 amps continuous from each connector•
(50 amps if used with optional Y-cable assembly TI2000-071)•
71 amp hours (1736 watt hours) with ac power from each connector •
46 amp hours (1024 watt hours) of rechargeable battery power without ac from each connector•
Recharge Rate From Full Discharge:
115 minutes @ 25°C•
AC Input:
Operates and charges from Single Phase 100-260 Vac 50/60 Hz •
10 amps @ 120 Vac 60 Hz•
5 amps @ 240 Vac 60 Hz•
Physical Properties:
Size: 37.28” L x 19.25” W x 15.97” H•
946.91 mm x 488.95 mm x 405.64 mm
Weight: 235 lbs (106.6 kg)•
Operating Temperature:
-40°C to +60°C (-40°F to 140°F) without ac power•
-40°C to +55°C (-40°F to 131°F) with ac power•
Storage Temperature:
-65°C to +105°C (-85°F to 221°F)•
Cell Capacity:
+40°C 110% ± 05%•
+25°C 100% ± 05%•
+00°C 80% ± 05%•
-20°C 65% ± 10%•
-40°C 50% ± 10%•
2.4 – General Specications
TI2500 GPU-24 7
2
Product Overview
2.5 – Physical Dimensions
2.6 – Airow Ports
CAUTION Damage may occur if the TI2500 GPU’s air intake or outlet ports are
obstructed. Ensure that ports are clear at all times.
When the TI2500 GPU-24 is plugged into AC power, the internal cooling system will efciently regulate unit
temperature regardless of load. At room temperature (+77°F) the exhaust air will not exceed the ambient
temperature by more than 5°F. In more extreme temperatures (greater than 90°F) the exhaust air will not
exceed the ambient temperature by more than 10°F.
Figure 2.5.1 - TI2500 GPU-24 physical dimensions
Figure 2.6.1 – Air intake, exhaust ports and internal air circulation
19.25 [488.95]
15.97 [405.64]
37.28 [946.91]
TI2500 GPU-24
8
2Product Overview
2.7 – Operating Positions
The TI2500 GPU-24 can be operated in both the horizontal and vertical positions as shown. Make sure that
the airow is not obstructed from air intake and outlet.
Vertical Position
Horizontal Position
Front Inlet Rear Outlet
TI2500 GPU-24 9
2
Product Overview
2.8 – AC Input Circuit Breakers
The AC input circuit breakers are located above the AC Input Connector. When the circuit breaker has been
tripped, either of the red buttons will pop out. In the event that the breaker trips:
Disconnect the ac and dc connectors. (Unplug ac line cord on military unit.)1.
Wait for a minimum of 60 seconds.2.
Reset breaker(s) by pressing red button(s).3.
Reconnect ac and dc connections to the unit. (Plug in ac line cord on military unit.)4.
The unit should power up automatically. If the breaker continues to trip, return the unit to Tesla™ Industries
for repair.
Figure 2.8.1 - AC Input Circuit Breakers
(outlined in blue)
2.9 – AC Input Connector
The GPU is outtted with a 3-prong receptacle (see gure 2.9.1 below). The mating cable is keyed and will
fasten securely into the AC Input Connector.
Figure 2.9.1 - AC Input Connector (outlined in blue)
Figure 2.8.2 - Pressing Circuit Breaker
TI2500 GPU-24
10
2Product Overview
NOTE
Do not overtighten Selector Shield screws. Be sure star locks are on
screws and snug the screw. Overtightening will damage the Selector
Shield.
!
2.11 – DC Output Connectors
The 24 Vdc Output Connector is a circular
style receptacle. The 24 Vdc Plugs (See
Figure 2.11.1 below) connect to the DC
Output Connectors and are secured via
threaded ring. Each output provides 28.5 Vdc
regulated at up 25 amps. 28.5 Vdc at up to
50 amps is possible when using the Y-cable
connector TI2000-071. This cable ties both
25 amp DC Connectors together to get one
output capable of 50 amps of continuous dc
power and 92 amp hours of rechargeable
battery power. Figure 2.11.1 - 24 Vdc Output Connectors (outlined in blue)
2.10 – Changing Input Voltage Selector Switch
To change the input voltage from 115 Vac to 230 Vac, simply follow these steps:
With phillips-head screwdriver, remove one screw and rotate the clear protective cover to one side.1.
Flip the switch to read 230V.2.
Rotate cover back into place. Replace and tighten screw.3.
Figure 2.10.1 Unscrew Protective Cover Figure 2.10.2 Select Voltage
!The 115 Vac setting accommodates the voltage range of 100-130 Vac.
The 230 Vac setting accommodates the voltage range of 200-260 Vac.
NOTE
CAUTION
!Do not plug unit into 230 Vac when Input Voltage Selector Switch is
set on 115 Vac.
This manual suits for next models
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