The EXP-1000HD was created specifically for the heavy-duty commercial/fleet market. Using new Dynamic Conductance Battery Testing Technology, and designed for maximum flexibility, this analyzer will quickly become your electrical diagnostic tool of choice. Specific features for commercial/fleet maintenance include battery pack testing, multiple battery routines for up to 6 batteries, special commercial battery algorithms, and application specific test parameters for system and cable drop testing.

Midtronics products are designed to meet a variety of battery and electrical system service requirements, but selected features on individual products may make them a better fit for your unique service applications. This product is particularly well-suited for these battery management processes: warranty management, service diagnostics and preventative maintanance 

The MDX-600 Battery and Electrical System Analyzer Series with conductance technology makes battery testing safe, fast, and simple. Three models with a range of capabilities offer technology to meet your service needs, from basic battery testing to full battery and electrical systems diagnostics for advanced battery types.

Midtronics products are designed to meet a variety of battery and electrical system service requirements, but selected features on individual products may make them a better fit for your unique service applications. This product is particularly well-suited for these battery management processes: Service diagnostics and Preventative maintenance.  

The MDX-500 Series Battery and Electrical System Analyzer Series with conductance technology makes battery testing safe, fast, and simple. Three models with a range of capabilities offer technology to meet your service needs, from basic battery testing to full battery and electrical systems diagnostics for advanced battery types.

Midtronics products are designed to meet a variety of battery and electrical system service requirements, but selected features on individual products may make them a better fit for your unique service applications. This product is particularly well-suited for these battery management processes

Complete with an integrated printer, the Midtronics MDX-300 Series makes it easy and affordable to determine and present the current state of a battery and electrical system. Midtronics products are designed to meet a variety of battery and electrical system service requirements, but selected features on individual products may make them a better fit for your unique service applications. This product is particularly well-suited for these battery management processes: Service diagnostics and preventative maintanance.

Featuring a versatile design as a speedometer, tachometer or controller sensor for heavy-duty vehicles, Midtronics Magnetic Pick-Up (MPU) sensors are used in a variety of applications — from heavy-duty trucks to refrigeration units, small utility vehicles, farm equipment, and even wood-chipping units.

Midtronics products are designed to meet a variety of battery and electrical system service requirements, but selected features on individual products may make them a better fit for your unique service applications.

Midtronics products are designed to meet a variety of battery and electrical system service requirements, but selected features on individual products may make them a better fit for your unique service applications. This product is particularly well-suited for these battery management processes: warrant management, service diagnostics, vehicle arrival inspection, pre-delivery inspection and lot management.

Using the built in 300A (optional 500A) load, DCA-8000 mimics a start event and then charges the battery to verify the battery can support advanced vehicle system applications like start-stop. This enables DCA-8000 to more accurately judge true battery condition.

Combined with Conductance Profiling™, DCA-8000 ensures service readiness for emerging vehicle systems, battery types, and new points of battery failure.

The Sorensen™ Asterion® DC ASA Series is the newest addition to the Asterion platform of power testing solutions. The new ASA Series features three independent, isolated 600W channels for a combined 1800W total output power. The autoranging supplies feature expanded current and voltage range at the full output power level, enabling the ability to satisfy a wider testing need without requiring the purchase of additional models.

Control via Front Panel Touchscreen & Encoder Knob or available digital control interfaces

The Asterion DC ASA Series is Digital Signal Processor (DSP) controlled and can be operated from the intuitive, easy-to-use front panel touchscreen or the Ethernet LXI, USB and RS232 standard control interfaces, as well as through the optional GPIB control interface. The touchscreen function group icons include a Dashboard, Output Programming Parameters, Measurements, Sequencing, Configuration, Control Interfaces, Applications, and System Settings. Function selection and parameter entry can be achieved either by direct selection from the touchscreen or by using the encoder selector button. The control resolution is adjusted by a dynamic rate change algorithm that combine the benefits of precise control over small parameter changes with quick sweeps through the entire range.

Applications

The Asterion DC ASA Series is designed for testing today’s complex electronics, including telecommunications and commercial electronics requiring low profile, light weight power supplies with high power density. Other applications include:

• Military and aerospace electronics test
• DC power simulation
• Commercial manufacturing and process control
• Research and development
• Automotive component and battery testing
• ATE applications

The CELLGUARD™ ELS+ Electrolyte Level Monitoring System provides reliable electrolyte level and temperature monitoring on Vented Lead Acid (VLA) batteries of any voltage, size, or design in Utility, Telecommunications, Data Centers, and Industrial Battery Plant applications.

The CELLGUARD™ Wired Battery Monitoring System (BMS) delivers economical, yet highly accurate and reliable remote health analysis of stationary batteries in applications with high electromagnetic noise.

The CELLGUARD™ Wireless Battery Monitoring System (BMS) provides an accurate and reliable indication of battery state-of-health through monitoring and analysis of battery voltage, temperature, and conductance. 

CELLTRAQTM Enterprise (server-based) and CELLTRAQTM Express (PC-based) allow users to manage battery system data generated by maintenance routines using CELLTRONTM Battery Testers or CELLGUARDTM Battery Monitoring Systems. CELLTRAQTM enables efficient process management, including budget management of scheduled battery replacement.

The CELLTRON™ Secure Power Battery Tester provides a simple method to screen the state-of-health of popularly sized 6 volt and 12 volt sealed lead-acid batteries for security systems, emergency lighting, mobility vehicles, and uninterruptible power supplies.

The CELLTRON Genstart Battery Tester provides generator/ fleet starting battery analysis to quickly identify the health of generator starting batteries. Assure that your battery is powered and ready to start a generator in the case of an outage. Ideal tester for NFPA compliance in lieu of specific gravity testing.

Built upon experience and proven technology, the CELLTRON Ultra offers advanced battery testing capabilities for effective evaluation and maintenance of all stationary power systems, including uninterruptible power supplies in data center environments with high levels of electrical interference noise (UPS systems), power utility, telecommunications industries and is ideal for use in data centers or other environments with high levels of electrical interference noise.

The CELLTRONTM Advantage Digital is a fast, user-friendly, premium handheld tester for measuring battery conductance, voltage, temperature and strap resistance in high-noise environments for a complete battery state-of-health analysis. With the capability to test Valve Regulated Lead Acid (VRLA), Vented Lead Acid (VLA), and Nickle Cadmium (Ni-Cd) batteries, the CELLTRONTM Advantage Digital can measure battery voltage down to one (1) volt as well as measure inter-cell and terminal connection resistance.

LineIQ provides basic line fault indication, as well as intelligent remote monitoring. Basic fault indicators point only to the initial (primary) faults; however, intelligent monitoring helps utilities more quickly isolate faults and restore power through recording real-time data on true voltage, fault waveform, load profile, line status and condition, ambient and conductor temperature, and through providing time-stamped event recordings.

The 1250-LTC is designed specifically for transformer LTC position monitoring. Its hardware is the same as the 1250B with the addition of Input Isolation, Serial Port and Relay inputs which provide enhanced analysis of LTC position.

The 1511-LTC provides basic LTC tap position monitoring using the LTC’s slide wire position feedback device. As the LTC changes taps, the moveable contact picks up the voltage divided through the resistors in the slide wire, so that each tap has its own specific voltage.

The 1250B is a versatile programmable position monitor. Its main application is for Transformer LTC position monitoring, but its non-linear conversion table gives it the ability to convert non-linear rotary motion into a linear scale for additional applications.

The INCON® Optimizer3 Circuit Breaker Monitor delivers advanced automated reporting of all critical circuit breaker diagnostics to ensure uptime and facilitate predictive maintenance. The Optimizer3 is ideal for high-voltage, live or dead-tank, oil, vacuum or gas circuit breakers. 

The Elgar Power Special Test Equipment (PSTE) provides programmable DC power, and programmable loading, to the electrical systems of satellites for system functional testing.

There are several key benefits of the PSTE. First, it is a complete turnkey system that is capable of operating locally through a simple GUI interface or remotely via a host computer as a single Ethernet address. The spacecraft engineer who defines the spacecraft power bus limits, cabling scheme, mode simultaneity matrix, and system behavior based upon limit conditions implements the real intelligence of the system. From this definition, operating procedures can be generated to allow spacecraft technicians to operate the system, system protections are implemented that perform cable detection and mode verification, automated spacecraft fixture identification and related mode capability, and more.

Second, the PSTE is intended to negate the need for purchasing new power test equipment with each new spacecraft. With a review of current and future needs and industry trends, power resources can be sized to provide the optimal blend of flexibility and price.

The system also monitors and provides protection for the satellite electrical power systems against any damage by programming error or by system failure.

The following resources are available in the system pictured on the cover. In most cases, the hardware resources can be scaled to meet the customer's individual requirements.

AC Isolation transformers

• 75KVA power rating; Transform 480VAC 3phase Delta to 208VAC 3 phase Wye

Main Power Rack

• Five 10KW power channels; 150VDC at 67A each
• One 5KW load channel; 3-450V, 0-150A constant current
• Eight programmable strip chart recorder outputs

Solar Array Simulator

• 64 Channels with 110V Voc and 450W each

Electronic Load Rack

• Three 5KW load channel; 3-450V, 0-150A constant current

Remote User Interface

• Ruggedized Portable PC with operator interface software

System Verification test Fixture

• Customized for individual spacecraft I/O to allow convenient, manual verification of power setup.

Hardware Overview

In this section, the overall system is first represented by a simplified block diagram along with a general discussion of the function of each equipment rack. After which, each rack of equipment is represented by its own block diagram. Each rack block diagram is supported by a discussion of the equipment in the rack.

Either the Remote User Interface (RUI) or the Remote Operating System (ROS) is the source of control, or Computer in Charge (CIC), at any given time, at the operator's discretion. The ROS is supplied by the user. The CIC communicates directly with the system controller in the MPR (MPR controller), and the entire system is controlled via the MPR Controller.

Diagnostics and Troubleshooting can be accomplished directly from the MPR controller. The Main Power Rack (MPR) provides main bus power for tests from up to five internal power sources. The Solar Array Simulator (SAS) provides solar panel simulation power. The Spacecraft Protection Unit (SPU) further protects the spacecraft from damage in case of failure of the built-in OVP/OIP protection of the rest of the PSTE system. For electrical system loading tests, the Electronic Load Rack (ELR) provides three programmable Electronic Load Units (ELU). The MPR contains an ELU that can be used when only one ELU is required.

Features
Bus simulator includes BPMU and SPU

• Provides enhanced measurement and data-logging of up to 40 channels.
• Bus Power Monitoring Unit (BPMU) can be easily relocated to TVAC chamber to ease cabling complications
• Data can be viewed either in spreadsheet or graphical format
• Spacecraft (Payload) Protection Unit (SPU) provides 10 μsec reaction to out-of-tolerance conditions

Power Subsystem for Transportable Military test stand

• Provides eight channels of programmable DC power with output isolation function
• Output disconnect function
• Total control via Ethernet within power supply.
• Mounted in custom in transportable shock-mount case.

The Elgar Battery String Simulators (BSS) provide safe, reliable battery power for spacecraft testing. The broad range of features available ensures simulation capabilities for more than just two terminal power. It's the ideal solution for complete integrated system testing, not just battery elimination.

The BSS behavior is determined by a charge table, in spreadsheet format, specific for a battery topology and various battery conditions. Many charge tables can be stored on the computer hard drive for easy retrieval.

The BSS operates in two modes, static and dynamic. In the static mode, when a state-of-charge value is entered, the BSS will instantly produce the terminal voltage corresponding to that state-of-charge. Because of this programmable flexibility, time consuming discharge cycles of flight test batteries are eliminated. In the dynamic mode, once a state-of- charge start point is entered, the BSS will monitor the charge and discharge energies being impressed on the "battery" and modify the terminal voltage accordingly.

Single or dual battery pack simulator versions are available with discharge currents of up to 150A and charge currents of up to 50A per battery. In addition, optional sensor simulators (including thermistor, pressure transducer, and heater loads outputs) allow closed loop input to the Spacecraft Power Regulator for true battery emulation. As with the SAS systems, each Battery Simulator System is a fully integrated, turn-key system using a Windows Graphical User Interface and hardware control software. This control is accomplished via a standard ethernet or optional GPIB interface using standard SCPI format commands.