LSN2-T/22-D12NG-C Murata Power Solutions Inc, LSN2-T/22-D12NG-C Datasheet - Page 9
LSN2-T/22-D12NG-C
Manufacturer Part Number
LSN2-T/22-D12NG-C
Description
DC/DC Converter
Manufacturer
Murata Power Solutions Inc
Series
LSN2r
Specifications of LSN2-T/22-D12NG-C
No. Of Outputs
1
Input Voltage
8.3V To 14V
Power Rating
112W
Output Current
22A
Approval Bodies
UL, CSA
Supply Voltage
14VDC
Dc / Dc Converter Case Style
SIP
Dc/dc Converter Mounting
Through Hole
Product
Non-Isolated / POL
Output Power
110 W
Input Voltage Range
8.3 V to 14 V
Input Voltage (nominal)
12 V
Number Of Outputs
1
Output Voltage (channel 1)
0.8 V to 5 V
Output Current (channel 1)
22 A
Package / Case Size
SIP
Output Type
Low Voltage Selectable
Output Voltage
0.8 V to 5 V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
These diagrams illustrate the time and slew rate relationship between two
typical power output voltages. Generally the Master will be a primary power
voltage in the system which must be present fi rst or coincident with any
Slave power voltages. The Master output voltage is connected to the Slave’s
Sequence input, either by a voltage divider, divider-plus-capacitor or some
other method. Several standard sequencing architectures are prevalent. They
are concerned with three factors:
For most systems, the time relationship is the dominant factor. The voltage
difference relationship is important for systems very concerned about possible
latchup of programmable devices or overdriving ESD diodes. Lower slew
rates avoid overcurrent shutdown during bypass cap charge-up.
In Figure 18, two POL’s ramp up at the same rate until they reach their dif-
ferent respective fi nal set point voltages. During the ramp, their voltages are
nearly identical. This avoids problems with large currents fl owing between
logic systems which are not initialized yet. Since both end voltages are differ-
ent, each converter reaches it’s setpoint voltage at a different time.
Figure 9 shows two POL’s with different slew rates in order to reach differing
fi nal voltages at about the same time.
„
„
„
The time relationship between the Master and Slave voltages
The voltage difference relationship between the Master and Slave
The voltage slew rate (ramp slope) of each converter’s output.
Figure 8. Coincident or Simultaneous Phasing (Identical Slew Rates)
Figure 9. Proportional or Ratiometric Phasing (Identical V
OUT
www.murata-ps.com
Time)
Figures 10 and 11 show both delayed start up and delayed fi nal voltages for
two converters. Figure 10 is called “Inclusive” because the later starting POL
fi nishes inside the earlier POL. The timing in Figure 10 is more easily built
using a combined digital sequence controller and the Sequence/Track pin.
Figure 11 is the same strategy as Figure 10 but with an “exclusive” timing
relationship staggered approximately the same at power-up and power-down.
Operation
To use the Sequence pin after power start-up stabilizes, apply a rising external
voltage to the Sequence input. As the voltage rises, the output voltage will
track the Sequence input (gain = 1). The output voltage will stop rising
when it reaches the normal set point for the converter. The Sequence input
may optionally continue to rise without any effect on the output. Keep the
Sequence input voltage below the converter’s input supply voltage.
Use a similar strategy on power down. The output voltage will stay constant
until the Sequence input falls below the set point.
Any strategy may be used to deliver the power up/down ramps. The circuits
below show simple RC networks but you may also use operational amplifi ers,
D/A converters, etc.
Circuits
The circuits shown in Figures 12 through 14 introduce several concepts when
using these Sequencing controls on Point-of-Load (POL) converters. These
circuits are only for reference and are not intended as fi nal designs ready for
your application. Also, numerous connections are omitted for clarity.
Figure 10. Staggered or Sequential Phasing—Inclusive (Fixed Delays)
Figure 11. Staggered or Sequential Phasing—Exclusive
22A Selectable-Output DC/DC Converters
25 Jun 2010
(Fixed Cascaded Delays)
LSN2-T/22-D12
MDC_LSN2-T/22-D12_B03Δ
Non-isolated, DOSA-SIP,
email: sales@murata-ps.com
Page 9 of 13
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