Vector VEC1028POB, BD051605 Using the AIR COMPRESSOR/INFLATOR, Using the 120 Volt AC Power Supply

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USING THE 12 VOLT DC PORTABLE POWER SUPPLY

USING THE EMERGENCY AREA LIGHT

1.Flip open the 12 Volt DC Outlet cover on the upper right side of the unit.

2.Insert the 12 volt DC plug from the appliance into the outlet.

3.Turn on the appliance and operate normally.

CAUTION

DO NOT USE UNIT TO POWER APPLIANCES THAT DRAW MORE THAN 5 AMPS DC.

12 VOLT DC

OUTLET

The Area Light is controlled by an ON/OFF pushbutton. Make sure the light is turned OFF when the unit is being recharged or stored.

USING THE AIR COMPRESSOR/INFLATOR

The built-in 12 volt DC Air Compressor is the ultimate inflator for all vehicle tires, trailer tires and sports inflatables. The attached Air Compressor Hose with standard tire valve connector (chuck) and three different sized nozzles are located on the front left

AIR COMPRESSOR

USING THE 120 VOLT AC POWER SUPPLY

The Power Center comes with:

1.AC ON/OFF Switch — Press switch to turn the AC Power Supply ON and OFF.

2.Dual 120 Volt AC Power Outlets

3.AC Power Supply “ON” Status Indicator — green LED lights when AC outlet is turned on; green LED flashes on and off when faulted.

4.AC Power Ground Fault Circuit Interrupt (GFCI) — two three-prong outlets for 110/120 volt AC appliances which shut down inverter if leakage or ground fault current is detected.

5.Internal protective circuits including:

AC POWER SUPPLY

PANEL

panel of the unit in the compartment labeled “Air.”

Each nozzle clips on the end of the standard tire valve connector attached to the free end of the air compressor hose.

The Inflator/Deflator is useful for quickly inflating and deflating such items as air mattresses, pool toys, etc. The detached Inflator/Deflator Hose connects to either the Inflator or Deflator port also located in the compartment labeled “Air” on the front left panel of the unit. The Inflator/Deflator Hose is stored in a compartment in the back of the unit.

WARNING

The air compressor is capable of inflating up to 120 pounds per square inch (psi).

HOSE

INFLATOR/DEFLATOR HOSE

AIR

PANEL

AIR

COMPRESSOR

HOSE

Overload and over-temperature shutdown (activated if AC output exceeds 400 watts or the unit overheats)

AC short-circuit shutdown

Low voltage shutdown

A new cooling technology that more efficiently cools the power transistors, dramatically increasing reliability and product life.

AC Power Supply Controls and Indicators

The illustration above details the AC Power Supply Panel. The ON/OFF switch turns the AC power circuitry on and off. The ON/OFF switch can also be used to reset the AC power after shutdown due to overvoltage, overload or over-temperature condition. The “ON” status indicator lights when the AC power supply is on.

AC Power Supply Operation

1.Turn power switch to ON (the power indicator lights).

2.Plug in appliance and operate as usual.

To avoid overinflating, carefully follow instructions on articles to be inflated. Never exceed recommended pressures. Always check pressure with the pressure gauge. Never leave the Air Compressor/ Inflator unattended while in use. Bursting articles can cause serious injury.

CAUTION

Do not operate the Air Compressor/Inflator continuously for extended periods of time (approx. 15 minutes, depending on the ambient temperature), as it may overheat. In such event, the Air Compressor will shut down and can be restarted after a cooling period of approximately 15 minutes.

PRESSURE GAUGE

Note: The AC power supply shuts down automatically when the battery voltage level is too low. If the green LED flashes, a faulty condition such as an overload, overheating or short circuiting has occurred. Turn the AC Power Supply OFF and unplug the appliance. Wait a few minutes, then turn power back ON.

Inflating Products With a Valve Stem Using the Compressor

1.Place the standard connector (chuck) of the Air Compressor Hose on the valve stem.

2.Push connector toward valve stem and close thumb latch.

Note: Make sure connector is pushed onto valve stem as far as possible before closing thumb latch.

3. Slide Air Compressor/Inflator Switch to COMPRESSOR.

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Contents Power Center Important Safety Instructions Table of Contents Protective Features Viewing Battery Charge StatusAC and DC CHARGING/RECHARGING Volt DC Charging Using the Power Center AS a JUMP-STARTERVolt AC Charging Jump-Starting InstructionsAC Power Supply Controls and Indicators Using the AIR COMPRESSOR/INFLATORUsing the 120 Volt AC Power Supply AC Power Supply OperationReplacement Parts Care and MaintenanceUsing the Inflator/Deflator Fuse Replacement DC Accessory AdapterAC Power Specifications SpecificationsVolt DC Specifications Tire Inflator Specifications

BD051605, VEC1028POB specifications

Vector BD051605 and VEC1028POB are two innovative products in the realm of advanced vehicle technology, specifically designed for enhancing mobility and engineering applications. These devices embody exceptional design and functionality, catering to various modern vehicular needs.

The Vector BD051605 is a high-performance controller that is primarily aimed at managing electric motor operations in electric and hybrid electric vehicles. Its standout features include a versatile communication interface, enabling integration with multiple sensors and control units. This flexibility allows it to be employed in a variety of vehicle platforms. The BD051605 supports advanced modulation techniques which contribute to improved efficiency and performance of electric drive systems. With its robust thermal management design, this controller ensures reliable operation even under demanding conditions, making it a preferred choice for manufacturers seeking optimum reliability.

On the other hand, the VEC1028POB is a compact yet powerful power distribution unit known for its capability to manage multiple electrical loads seamlessly. This unit incorporates state-of-the-art technologies that enhance safety and efficiency across various electrical systems. A notable feature is its integrated fault detection mechanism, which provides real-time diagnostics and predictive maintenance alerts. This characteristic not only enhances reliability but also minimizes downtime, which is critical in commercial applications.

Both devices leverage cutting-edge technologies such as CAN bus communications, which facilitate high-speed data transfer between components, ensuring that information is readily available for decision-making processes. The integration of advanced algorithms within both the BD051605 and VEC1028POB allows for dynamic adjustments according to vehicle performance parameters, optimizing energy usage and improving overall vehicle efficiency.

In conclusion, Vector BD051605 and VEC1028POB combinedly represent a significant leap forward in vehicle technology. Their superior features, including enhanced communication, reliability, and real-time diagnostics, position them as essential components for contemporary electric and hybrid vehicles. As the automotive industry continues to evolve towards greater electrification and automation, these technologies provide practical solutions that support this transition while ensuring safety and performance efficiency. Their implementation not only drives advancements in vehicle engineering but also aligns with the growing demand for sustainable mobility solutions.