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PDF ( 数据手册 , 数据表 ) MP028F036M12AL

零件编号 MP028F036M12AL
描述 Non-isolated Regulator
制造商 Vicor
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MP028F036M12AL 数据手册, 描述, 功能
PRMRegulator 28 Vdc Input
MIL-COTS
MP028F036M12AL
S
C NRTL US
Non-isolated Regulator
Features
• VIN range 16 – 50 Vdc
• High density – 407 W/in3
• Small footprint – 108 W/in2
• Low weight – 0.5 oz (15 g)
• Surface-mount or
Through-hole package
• Adaptive Loop feedback
• ZVS buck-boost regulator
• 1.3 MHz switching frequency
• 95% efficiency
• -55 °C to 125 °C operation (TJ)
VIN = 16 – 50 V
VOUT = 26 – 50 V
POUT = 120 W
IOUT = 3.3 A
©
Product Description
The PRMregulator is a very efficient non-isolated
regulator capable of both boosting and bucking a wide
range input voltage. It is specifically designed to provide
a controlled Factorized Bus distribution voltage for
powering downstream VTMcurrent multiplier — fast,
efficient, isolated, low noise Point-of-Load (POL)
converters. In combination, PRM modules and VTM
modules form a complete DC-DC converter subsystem
offering all of the unique benefits of Vicor’s Factorized
Power ArchitectureTM (FPATM) : high density and
efficiency; low noise operation; architectural flexibility;
extremely fast transient response; and elimination of
bulk capacitance at the Point-of-Load (POL).
In FPA systems, the POL voltage is the product of the
Factorized Bus voltage delivered by the PRM module
and the "K-factor" (the fixed voltage transformation
ratio) of a downstream VTM module. The PRM
regulator controls the Factorized Bus voltage to provide
regulation at the POL. Because VTM modules perform
true voltage division and current multiplication, the
Factorized Bus voltage may be set to a value that is
substantially higher than the bus voltages typically
found in "intermediate bus" systems, reducing
distribution losses and enabling use of narrower
distribution bus traces. A Military PRM module-VTM
module chip set can provide up to 100 A or 115 W at a
FPA system density of 169 A/in3 or 195 W/in3 — and
because the PRM module can be located, or
"factorized," remotely from the POL, these power
densities can effectively be doubled.
The Military PRM module described in this data sheet
features a unique "Adaptive Loop" compensation
feedback: a single wire alternative to traditional remote
sensing and feedback loops that enables precise control
of an isolated POL voltage without the need for either a
direct connection to the load or for noise sensitive,
bandwidth limiting, isolation devices in the feedback
path.
Absolute Maximum Ratings
Parameter
+In to -In
PC to -In
PR to -In
IL to -In
VC to -In
+Out to -Out
SC to -Out
VH to -Out
OS to -Out
CD to -Out
SG to -Out
Continuous output current
Continuous output power
Values
-1.0 to 60.0
-0.3 to 6.0
-0.3 to 9.0
-0.3 to 6.0
-0.3 to 18.0
-0.3 to 59
-0.3 to 3.0
-0.3 to 9.5
-0.3 to 9.0
-0.3 to 9.0
100
3.3
120
Case temperature during reflow
245
Operating junction temperature
Storage temperature
-40 to 125
-40 to 125
DC-DC Converter
Unit
Vdc
Vdc
Vdc
Vdc
Vdc
Vdc
Vdc
Vdc
Vdc
Vdc
mA
Adc
W
°C
°C
°C
Notes
MSL 4
(Datecode 1528
and later)
T-Grade
T-Grade
VIN
0.01 µF
10 kΩ
VC VH
P C SC
T M SG
IL OS
NC
P R PRM® -AL
NC
CD
Module
+In +Out
ROS
RCD
–In –Out
Factorized
Bus (VF)
0.4 µH
10 Ω
+Out
+In
+Out
TM VTM®
VC
PC
Module
– Out
K
Ro– In
– Out
L
O
A
D
The MP028F036M12AL is used with any 036 input series VTMmodule to provide a
regulated and isolated output.
PRMRegulator 28 Vdc Input
Page 1 of 14
Rev 3.8
08/2015
vicorpower.com
800 927.9474







MP028F036M12AL pdf, 数据表
Pin / Control Functions
+In / -In DC Voltage Ports
The VI Chip® maximum input voltage should not be exceeded. PRMs
have internal over / undervoltage lockout functions that prevent
operation outside of the specified input range. PRMs will turn on when
the input voltage rises above its undervoltage lockout. If the input
voltage exceeds the overvoltage lockout, PRMs will shut down until the
overvoltage fault clears. PC will toggle indicating an out of bounds
condition.
+Out / -Out Factorized Voltage Output Ports
These ports provide the Factorized Bus voltage output. The –Out port is
connected internally to the –In port through a current sense resistor.
The PRM has a maximum power and a maximum current rating and is
protected if either rating is exceeded. Do not short –Out to –In.
VC – VTM Control
The VTM Control (VC) port supplies an initial VCC voltage to
downstream VTMs, enabling the VTMs and synchronizing the rise of
the VTM output voltage to that of the PRM. The VC port also provides
feedback to the PRM to compensate for voltage drop due to the VTM
output resistance. The PRM’s VC port should be connected to the VTM
VC port. A PRM VC port can drive a maximum of two (2) VTM VC ports.
PC – Primary Control
The PRM voltage output is enabled when the PC pin is open circuit
(floating). To disable the PRM output voltage, the PC pin is pulled low.
Open collector optocouplers, transistors, or relays can be used to
control the PC pin. When using multiple PRMs in a high power array,
the PC ports must be tied together to synchronize their turn on.
During an abnormal condition the PC pin will pulse (Fig.14) as the PRM
initiates a restart cycle. This will continue until the abnormal condition
is rectified. The PC should not be used as an auxiliary voltage supply,
nor should it be switched at a rate greater than 1 Hz.
TM – Factory Use Only
IL – Current Limit Adjust
The PRM has a preset, maximum, current limit set point. The IL port
may be used to reduce the current limit set point to a lower value. See
“adjusting current limits” on page 10.
PR – Parallel Port
The PR port signal, which is proportional to the PRM output power,
supports current sharing of two PRMs. To enable current sharing,
PR ports should be interconnected. Steps should be taken to minimize
coupling noise into the interconnecting bus. Terminate this port with a
10 k equivalent resistance to SG, e.g. 10 k for a single PRM, 20 k each
for 2 PRMs in parallel, 30 k each for 3 PRMs in parallel etc.. Please
consult Vicor Applications Engineering regarding additional
considerations when paralleling more than two PRMs.
VH – Auxiliary Voltage
VH is a gated (e.g. mirrors PC), non-isolated, nominally 9 Volt,
regulated DC voltage (see “Auxiliary Pins” specifications, on Page 7)
that is referenced to SG. VH may be used to power external circuitry
having a total current consumption of no more than 5 mA under either
transient or steady state conditons including turn-on.
PRMRegulator 28 Vdc Input
Page 8 of 14
Rev 3.8
08/2015
MP028F036M12AL
AL Version
4
VH A
SC B
SG C
OS D
NC E
CD F
3
+OUT
G
H
J
K
–OUT
L
M
N
P
21
A VC
B PC
C TM
D IL
E NC
F PR
G
H
+IN
J
K
L
M –IN
N
P
Signal Name
+In
–In
VC
PC
TM
IL
PR
VH
SC
SG
OS
CD
+Out
–Out
Bottom View
Designation
G1-K1,G2-K2
L1-P1, L2-P2
A1,A2
B1, B2
C1, C2
D1, D2
F1, F2
A3, A4
B3, B4
C3, C4
D3, D4
F3, F4
G3-K3, G4-K4
L3-P3, L4-P4
Figure 17 — PRM pin configuration
SC – Secondary Control
The load voltage may be controlled by connecting a resistor or voltage
source to the SC port referenced to SG. The slew rate of the output
voltage may be controlled by controlling the rate-of-rise of the voltage
at the SC port (e.g., to limit inrush current into a capacitive load).
SG – Signal Ground
This port provides a low inductance Kelvin connection to –In and
should be used as reference for the OS, CD, SC,VH and IL ports.
OS – Output Set
The application-specific value of the Factorized Bus voltage (Vf) is set
by connecting a resistor between OS and SG. Resistor value selection is
shown in Table 1 on Page 2, and described on Page 9. If no resistor is
connected, the PRM output will be approximately one volt. If set
resistor is not collocated with the PRM, a local bypass capacitor of
~200 pF may be required.
CD – Compensation Device
Adaptive Loop control is configured by connecting an external resistor
between the CD port and SG. Selection of an appropriate resistor value
(see Equation 2 on Page 9) configures the PRM to compensate for
voltage drops in the equivalent output resistance of the VTM and the
PRM-VTM distribution bus. If no resistor is connected to CD, the PRM
will be in Local Loop mode and will regulate the
+Out / –Out voltage to a fixed value.
vicorpower.com
800 927.9474














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