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参数资料
| 型号: | LSN2-T/30-D12-C |
| 厂商: | MURATA POWER SOLUTIONS INC |
| 元件分类: | 电源模块 |
| 英文描述: | 1-OUTPUT 150 W DC-DC REG PWR SUPPLY MODULE |
| 封装: | ROHS COMPLIANT, SIP-13 |
| 文件页数: | 15/16页 |
| 文件大小: | 452K |
| 代理商: | LSN2-T/30-D12-C |
LSN2-T/30-D12 Series
DOSA-SIP, 30A POL DC/DC Converters
www.murata-ps.com
email: sales@murata-ps.com
25 Jun 2010
MDC_LSN2-T/30-D12 Series.B20Δ Page 8 of 16
Start Up Considerations
When power is rst applied to the DC/DC converter, operation is different than
when the converter is running and stabilized. There is some risk of start up
difculties if you do not observe several application features. Lower output
voltage converters may have more problems here since they tend to have
higher output currents. Operation is most critical with any combination of the
following external factors:
1 – Low initial input line voltage and/or poor regulation of the input source.
2 – Full output load current on lower output voltage converters.
3 – Slow slew rate of input voltage.
4 – Longer distance to input voltage source and/or higher external input
source impedance.
5 – Limited or insufcient ground plane. External wiring that is too small.
6 – Too small external input capacitance. Too high ESR.
7 – High output capacitance causing a start up charge overcurrent surge.
8 – Output loads with excessive inductive reactance or constant current
characteristics.
If the input voltage is already at the low limit before power is applied, the
start up surge current may instantaneously reduce the voltage at the input
terminals to below the specied minimum voltage. Even if this voltage depres-
sion is very brief, this may interfere with the on-board controller and possibly
cause a failed start. Or the converter may start but the input current load will
now drive the input voltage below its running low limit and the converter will
shut down.
If you measure the input voltage before start up with a Digital Voltmeter (DVM),
the voltage may appear to be adequate. Limited external capacitance and/or
too high a source impedance may cause a short downward spike at power up,
causing an instantaneous voltage drop. Use an oscilloscope not a DVM to observe
this spike. The converter’s soft-start controller is sensitive to input voltage. What
matters here is the actual voltage at the input terminals at all times.
Symptoms of start-up difculties may include failed started, output oscilla-
tion or brief start up then overcurrent shutdown. Since the input voltage is never
absolutely constant, the converter may start up at some times and not at others.
LSN2-T/30-D12 Power Sequencing
In older systems, one master switch simultaneously turned on the power for all
parts of an application. Many modern systems require multiple supply voltages
for different on-board sections. Typically the CPU or microcontroller needs
1.8 Volts or lower. Memory (particularly DDR) may use 1.8 to 2.5 Volts. Inter-
face “glue” and “chipset” logic might use +3.3Vdc power while Input/Output
subsystems may need +5V. Finally, peripherals use 5V and/or 12V.
Timing is Everything
This mix of system voltages is being distributed by several local power solu-
tions including Point-of-load (POL) DC/DC converters and sometimes a linear
regulator, all sourced from a master AC power supply. While this mix of volt-
ages is challenging enough, a further difculty is the start-up and shutdown
timing relationship between these power sources and relative voltage differ-
ences between them.
For many systems, the CPU and memory must be powered up, boot-strap
loaded and stabilized before the I/O section is turned on. This avoids uncom-
manded data bytes being transferred, compromising an already-running
external network or placing the I/O section in an undened mode. Or it keeps
bad commands out of disk and peripheral controllers until they are ready to go
to work.
Another goal for staggered power-up is to avoid an oversize load applied to
the master source all at once. A more serious reason to manage the timing and
voltage differences is to avoid either a latchup condition in programmable logic
(a latchup might ignore commands or would respond improperly to them) or a
high current startup situation (which may damage on-board circuits). And on
the power down phase, inappropriate timing or voltages can cause interface
logic to send a wrong “epitaph” command (Figure 5).
SEQUENCING
CONTROLLER
ENABLE
+VIN
POL
A
“ALL ON”
POL
B
CPU
TO OTHER POLs
+5V
LOADS
+12Vdc
+3.3V
LOADS
ENABLE
TIME
Settling
Delay
POL A
ENABLE
STARTUP SEQUENCE:
OFF
ON
POL B
Figure 5. Power Up/Down Sequencing Controller
Two Approaches
There are two ways to manage these timing and voltage differences. Either the
power up/down sequence can be controlled by discrete On/Off logic controls
for each power supply (see Figure 5). Or the power up/down cycle is set by
Sequencing or Tracking circuits. Some systems combine both methods.
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相关代理商/技术参数 |
参数描述 |
|---|---|
| LSN2-T30-D12-C | 制造商:MURATA 制造商全称:Murata Manufacturing Co., Ltd. 功能描述:DOSA-SIP, 30A POL DC/DC Converters |
| LSN2-T30-D12G-C | 制造商:MURATA 制造商全称:Murata Manufacturing Co., Ltd. 功能描述:DOSA-SIP, 30A POL DC/DC Converters |
| LSN-3.3/10-D12 | 功能描述:DC/DC转换器 33W 12V to 3.3V 10A RoHS:否 制造商:Murata 产品: 输出功率: 输入电压范围:3.6 V to 5.5 V 输入电压(标称): 输出端数量:1 输出电压(通道 1):3.3 V 输出电流(通道 1):600 mA 输出电压(通道 2): 输出电流(通道 2): 安装风格:SMD/SMT 封装 / 箱体尺寸: |
| LSN-3.3/10-D12B | 功能描述:DC/DC转换器 33W 12V to 3.3V 10A RoHS:否 制造商:Murata 产品: 输出功率: 输入电压范围:3.6 V to 5.5 V 输入电压(标称): 输出端数量:1 输出电压(通道 1):3.3 V 输出电流(通道 1):600 mA 输出电压(通道 2): 输出电流(通道 2): 安装风格:SMD/SMT 封装 / 箱体尺寸: |
| LSN-3.3/10-D12B-C | 功能描述:DC/DC转换器 33W 12V to 3.3V 10A RoHS:否 制造商:Murata 产品: 输出功率: 输入电压范围:3.6 V to 5.5 V 输入电压(标称): 输出端数量:1 输出电压(通道 1):3.3 V 输出电流(通道 1):600 mA 输出电压(通道 2): 输出电流(通道 2): 安装风格:SMD/SMT 封装 / 箱体尺寸: |
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