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Samlex SA-150-124 > 150 Watt 24 Volt Inverter > Pure Sine Wave
Samlex SA-150-124 - 150 Watt 24 Volt Inverter - Pure Sine Wave


 


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Description Datasheet
 

Samlex SA Series Off-Grid Inverter

Pure Sine Wave
150 Watt, 24 VDC / 120 VAC
Manufacturer Part Number: SA-150-124

True sine wave voltage inverters provide clean, stable power for computers, radio equipment, home theater, stereo, marine equipment and other applications that are sensitive to AC voltage irregularity. This high efficiency microprocessor controlled DC-AC inverter converts 24 Volts DC (Nominal) to 150 watts of pure sine-wave AC power at 110 Volts, 60 Hz.

Model# Input Voltage Output Voltage Dimensions Output Fuse Rating Weight
SA-150-112 21 - 30 VDC 110 VAC 200 x 132 x 72 mm 150 Watts N/a 2.7 kg

Features:

  • Optional remote power ON / OFF capability
  • Isolated input and output
  • Thermal controlled cooling fan
  • Advanced microprocessor design
  • Input polarity reverse / under voltage / over voltage protections
  • Output short circuit / overload / over temperature protections
  • Capable of driving highly reactive and capacitive loads
  • Tri-color indicators display input, output level & failure status
  • True sine wave output (THD 6% Typ.)

Specifications:

S150-112 S150-124
Output Output Voltage 110 VAC, +/- 5%
Output Frequency 50 / 60 Hz +/- 0.03% (Selected by Switch)
Type of Output Waveform Pure Sine Wave
Total Harmonic Distortion of Waveform < 6%
Continuous Output Power
(At Power Factor = 1)
150 W 150 W
Surge Output Power
(At Power Factor = 1)
200 W 200 W
Peak Efficiency
(At full load)
87% 88%
AC Output Connections Dual NEMA5-15R receptacles with GFCI protection
Input Nominal DC Input Voltage 12 VDC 24 VDC
DC Input Voltage Range 10.5 to 15 VDC 21 to 30 VDC
DC Input Current at Load 0.3 A 0.35 A
DC Input Connections Detachable pair of wires with Anderson Power Pole Connectors on inverter side
Display Status of Operations & Protections By steady / flashing patterns of 3 -color LED
Remote Operation Wired On/Off Control By external contact closure through mechanical / transistor switch
Low DC Input Voltage Shutdown 10.5 VDC 21.0 VDC
High DC Input Voltage Shutdown 15.3 VDC 30.6 VDC
Short Circuit Shutdown Yes
Overload Shutdown Yes
Ground Fault Shutdown GFCI protected dual NEMA5-20R receptacles
Over Temperature Shutdown Yes
Reverse Polarity on DC Input Size Yes. Internal fuses will blow
Cooling Forced Air Cooling Thermostatically controlled fan
Compliance Safety UL listed to UL-458
EMI / EMC Meets FCC Part 15(B), Class A
Environment Operating Temperature Range 0 °C to + 40 °C
Storage Temperature Range - 30 °C to 70 °C
Dimensions (L X W X H), MM 200 x 132 x 72
(L X W X H), IN. 7.9 x 5.2 x 2.8
Weight KG 2.7
LBS 5.6

Detailed Description:

Pure Sine Wave vs. Modified Sine Wave Inverters

  1. What is a Pure Sine-wave Inverter?

    The output voltage of a sine-wave inverter has a sine wave-form like the sine wave-form of the mains / utility voltage. In a sine wave, the voltage rises and falls smoothly with a smoothly changing phase angle and also changes its polarity instantly when it crosses 0 Volts.

  2. What is a Modified Sine-wave Inverter?

    In a modified sine wave, the voltage rises and falls abruptly, the phase angle also changes abruptly and it sits at 0 Volts for some time before changing its polarity.

  3. What are the advantages of Pure Sine-wave inverters?

    • The output wave-form is a sine-wave with very low harmonic distortion and clean power like utility supplied electricity
    • Inductive loads like microwaves and motors run faster, quieter and cooler
    • Reduces audible and electrical noise in fans, fluorescent lights, audio amplifiers, TV, fax and answering machines
    • Prevents crashes in computers, weird print outs and glitches in monitors

  4. Which devices will not function properly from a Modified Sine-wave Inverter?

    Any device that uses a control circuitry that senses the phase (for voltage / speed control) or instantaneous zero voltage crossing (for timing control) will not work properly from a voltage that has a modified sine wave-form. Also, as the modified sine wave is a form of square wave, it is comprised of multiple sine waves of odd harmonics (multiples) of the fundamental frequency of the modified sine wave.

    For example, a 60 Hz. modified sine wave will consist of sine waves with odd harmonic frequencies of 3rd (180 Hz), 5th (300 Hz.), 7th (420 Hz.) and so on. The high frequency harmonic content in a modified sine wave produces enhanced radio interference, higher heating effect in motors / microwaves and produces overloading due to lowering of the impedance of low frequency filter capacitors / power factor improvement capacitors.

    Some examples of devices that may not work properly with modified sine wave and may also get damaged are given below:

    • Laser printers, photocopiers, magneto-optical hard drives
    • The built-in clocks in devices such as clock radios, alarm clocks, coffee makers, bread-makers, VCR, microwave ovens etc may not keep time correctly
    • Output voltage control devices like dimmers, ceiling fan / motor speed control may not work properly (dimming / speed control may not function)
    • Sewing machines with speed / microprocessor control
    • Transformer-less capacitive input powered devices like (i) Razors, flashlights, night-lights, smoke detectors etc (ii) Re-chargers for battery packs used in hand power tools. These may get damaged. Please check with the manufacturer of these types of devices for suitability
    • Devices that use radio frequency signals carried by the AC distribution wiring
    • Some new furnaces with microprocessor control / Oil burner primary controls
    • High intensity discharge (HID) lamps like Metal Halide lamps. These may get damaged. Please check with the manufacturer of these types of devices for suitability
    • Some fluorescent lamps / light fixtures that have power factor correction capacitors. The inverter may shut down indicating overload

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