Meanwell DDR-120B-12 User Manual
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Meanwell DDR-120B-12 User Manual

Dc-dc converter
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MEAN WELL DC-DC CONVERTER USER MANUAL
1. INPUT
1.1 INPUT VOLTAGE
DC to DC converters are widely used all over the world. Many types of products are available for both high and low DC voltage
input. Before using any DC-DC converter, ensure that the output voltage and current is suitable for the intended load. Verify the
correct input connections, particularly the polarity, and any other conditions that might affect the unit's operation.
If an input voltage is applied which is different from the converter's rating, the unit may be damaged. Also remember that if the
input voltage is not pure DC, the device may not operate normally. Only the Meanwell SD-100D and SD-150D, type D input
converters allow an AC input (85~132VAC).
For all Mean Well Models refer to the label on the converter for the input voltage range.
1.2 INPUT CURRENT
The essential difference between an AC to DC power supply and a DC to DC converter is not just that the DC-DC converter
generally uses lower input voltages but that it does not require rectification of AC to DC nor does it require AC power factor
correction circuitry. Standard DC to DC converters simply filter the Direct Current (DC) input which then charges a smoothing
or filtering capacitor. The input current required is determined by the output power, input voltage and efficiency. The simplest
input stage with reverse polarity fuse protection is shown below:
Fig. 2
Not all Meanwell DC-DC converters have reverse polarity input protection. The simplest form of protection is a fuse and a
diode; if necessary the user may provide these components externally. The latest Meanwell high-wattage DC-DC converters
(RSD and DDR series) use a MOSFET circuit that tolerates accidental polarity reversal without damaging the unit.
Also not all DC-DC converters have sufficient EMI (Electromagnetic Interference) filtering and may require external filtering
of the input to meet regulatory requirements. Please refer to the data sheet.
1.3 INRUSH CURRENT
When power is applied, a large current flows to charge the input smoothing or filter capacitor. This current is called the "inrush
current". The value of the inrush current varies according to the size of the smoothing capacitor and the presence or absence of
the inrush current protection devices. The inrush current is many times larger than the normal input current. The more DC-DC
converters used in the same system, the larger the inrush current. Please ensure that fuses, switches, and other parts connected to
the input supply side are appropriately selected. Also, when powering DC-DC converters from other DC sources you will need
to allow for this inrush current and make allowance for the switch-on sequence of multiple converters.
If the converter's fuse is blown, do not replace the fuse and operate the unit before rectifying the problem that caused it to fail –
otherwise further damage may occur! Always replace the fuse with the same rated type. Always remove power to the unit and
discharge the input smoothing capacitor before attempting to replace the fuse.
www.procontechnology.com.au
1
Phone: (03) 98306288

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Summary of Contents for Meanwell DDR-120B-12

  • Page 1 If an input voltage is applied which is different from the converter's rating, the unit may be damaged. Also remember that if the input voltage is not pure DC, the device may not operate normally. Only the Meanwell SD-100D and SD-150D, type D input converters allow an AC input (85~132VAC).

  • Page 2: Maximum Output Power

    Most Mean Well DC-DC converters are equipped with protection circuits that automatically operate when the output current or output power exceeds a minimum of 105-110% of the rating. Some Meanwell module types do not provide continuous overload or short-circuit protection, in this case the maximum current output should not be exceeded or damage to the device can result.

  • Page 3: Over Temperature Protection (Otp)

    Recovery Circuits a. Automatic Recovery Automatic Recovery senses the removal of the fault condition and returns the unit to normal operation. b. Manual Recovery Before proceeding with Manual Recovery, make sure that the fault condition is removed. Manual Recovery requires cycling the input power off and on.

  • Page 4: Installation

    3. INSTALLATION, WIRING AND OPERATION Even the most efficient switched mode DC-DC converter will not function properly if the installation, wiring or connections are incorrect. Follow the installation, wiring and connection instructions specified in the data sheet or manual before switching on any unit.

  • Page 5: Wiring And Operation

    3.2 WIRING AND OPERATION Input and output wiring a. Separate the input and output wires so that any external surge voltage and/or ripple on the input lines does not interfere with the output side. This will also insure that the output ripple and noise does not increase. b.
  • Page 6 Remote Control and Remote Voltage Sensing a. Remote Control of the Output The output of some DC-DC converters can be controlled by supplying an appropriate signal to the RC terminal. Normally an open-circuit (>4 volts) will turn the output on and a short (< 0.8 volts) will turn the output off. With the SD-500 and SD-1000 units an externally applied voltage is required to turn off the output.
  • Page 7 Also see the Meanwell DRDN20 for 20A and the DRDN40 for 40A applications. These modules provide a DC OK indication and alarm relay contacts.
  • Page 8 Additional Output Ripple and Noise Control Fig. 17 is a diagram of a sample circuit that will improve the output ripple, noise, and Electromagnetic Interference (EMI) or Common Mode Noise. Fig. 17 is an example circuit only. Further design considerations are essential for specific applications. Fig.
  • Page 9 4. SAFETY Generally speaking, Meanwell DC-DC converters are manufactured to produce an isolated stabilized DC supply. Converters with high voltages (greater than 60VDC) must not be used until incorporated into a suitable enclosure as required by local laws and regulations. Please consult the relevant authority.
  • Page 10 Connection Cable Material The tables below contain a selection of UL approved connection wire. These tables should be reviewed when selecting cable for the input and output sides of the DC-DC converter. Ground Wire Connect the grounding terminal of the unit to the frame of the equipment with a short, thick wire. Note: For DC-DC converters integrated into other equipment, safety standards differ from country to country.
  • Page 11 5. EMI DC-DC converters are manufactured to comply with electro-magnetic interference (EMI) standards (refer to relevant specification). Depending on the wiring of the unit, load and grounding, the unit may not function correctly. To ensure optimal use of the DC-DC converter, consider the following steps: a.
  • Page 12 An electrolytic capacitor, used as a smoothing filter, is more sensitive to variations in the ambient temperature because of the chemical reactions which occur within it. Typically, the service life of electrolytic capacitors halves for every ambient temperature increase of 10ºC. This characteristic determines the service life of most DC-DC converters.

  • Page 13: Important Note

    Fig. 22 Fig. 23 Fig. 24 Where: Temperature inside chamber TA1: Temperature inside unit TPC: Temperature of unit case TCAP: Temperature of output capacitor IMPORTANT NOTE This summary of information is provided by Procon Technology and is largely from the Mean Well Switching Power Supply Technical Manual (September, 2003).

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