VICOR FARM2CS3

PRELIMINARY
45
Data Sheet
FARM
TM
Filter/
Autoranging Rectifier Module
Up to 1000 Watts
Features
•
•
•
•
•
•
•
•
•
EMI filtering
Choice of 500W or 750W modules
96% Efficiency
Autoranging 115/230Vac input
Microprocessor controlled
Inrush current limiting
Mini sized package
Power fail signal
Module enable
Product Highlights
Shown actual size:
2.28 x 2.2 x 0.5 in
57,9 x 55,9 x 12,7 mm
Absolute Maximum Rating
The FARM (Filter/Autoranging Rectifier
Module) is an AC front-end module which
provides EMI filtering, autoranging line
rectification and inrush current limiting. The
FARM is available in either 500/750W or
750/1000W models in a mini sized package
measuring only 2.28" x 2.2" x 0.5".
The FARM interfaces directly with
worldwide AC mains and may be used with
Vicor 1st or 2nd Generation 300V input
DC-DC converters to realize an autoranging,
high density, low profile switching power
supply. The FARM includes a microcontroller
that continuously monitors the AC line to
control bridge/doubler operation. The user
need only provide external capacitance to
satisfy system hold-up requirements.
Vicor 2nd Generation packaging technology
offers flexible mounting options for various
manufacturing processes. The FARM may be
installed as a conventional leaded device
for on-board applications, in-board for low
profile, height restricted applications,
socketed or surface mounted with optional
ModuMate interconnect products.
Parameter
L to N voltage
L to N voltage
+Out to –Out voltage
B OK to –Out voltage
EN to –Out voltage
Mounting torque
Pin soldering temperature
Pin soldering temperature
Rating
264
280
400
16
16
4-6(0.45-0.68)
500 (260)
750 (390)
Unit
Vac
Vac
Vdc
Vdc
Vdc
in-lbs (N-m)
°F (°C)
°F (°C)
Notes
Continuous
100ms
6 each, 4-40 screw
<5 sec; wave solder
<7 sec; hand solder
Thermal Resistance and Capacity
Parameter
Baseplate to sink; flat, greased surface
Baseplate to sink; with thermal pad (P/N 20264)
Baseplate to ambient
Baseplate to ambient; 1000 LFM
Min
Typ
0.16
0.14
8.0
1.9
Max
Unit
°C/Watt
°C/Watt
°C/Watt
°C/Watt
Part Numbering
FARM
Product
1
C
1
1
Type
1 = 500/750W
2 = 750/1000W
Product Grade
C = –20°C to +100°C
T = –40°C to +100°C
Pin Style*
1= Short Pin
2= Long Pin
S= Short ModuMate
N= Long ModuMate
Baseplate
1 = Slotted
2 = Threaded
3 = Thru-hole
*Pin styles S & N are compatible with the ModuMate interconnect system for socketing and surface mounting.
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
FARM, Filter/Autoranging Rectifier Module
Set your site on VICOR at www.vicorpower.com
Rev. 4.7
Page 1 of 12
PRELIMINARY
Electrical Characteristics
Electrical characteristics apply over the full operating range of input voltage, output power and baseplate temperature, unless
otherwise specified. All temperatures refer to the operating temperature at the center of the baseplate. Specifications apply for
AC mains having up to 5% total harmonic distortion.
MODULE INPUT SPECIFICATIONS (FARM1xxx, FARM2xxx)
Parameter
Min
Operating input voltage
Operating input voltage
Typ
Max
Unit
Notes
90
132
Vac
Autoranging (doubler mode)
180
264
Vac
Autoranging (bridge mode)
90
Vac
No damage
Input undervoltage
AC line frequency
47
63
Hz
C–Grade
AC line frequency
47
880
Hz
T–Grade
0.60
0.65
Power factor
Inrush current
FARM1xxx
FARM2xxx
Input surge withstand
Typical line
30
60
Amps
Amps
264Vac peak line, cold start
264Vac peak line, cold start
2kV –50 µs common mode
1kV –50 µs differential mode
EN61000-4-5
MODULE OUTPUT SPECIFICATIONS
FARM1xxx
Parameter
Min
Typ
FARM2xxx
Max
Min
Typ
Max
Unit
Notes
Output power
0
500
0
750
Watts
90-132Vac
Output power
0
750
0
1000
Watts
180-264Vac
Efficiency, 120Vac
94
96
94
96
%
Efficiency, 240Vac
94
96
94
96
%
Output voltage
250
370
Hold-up capacitance
250
1,800
370
Vdc
3,300
µF
90-264Vac
SAFETY SPECIFICATIONS (FARM1xxx, FARM2xxx)
Parameter
Min
Typ
Max
Unit
Safety approvals
Notes
UL 1950, CSA 22.2 No. 950,
TÜV, VDE, EN60950, CE Marked
Isolation voltage (in to out)
None
Isolation voltage (I/O to baseplate)
1500
Leakage current
Isolation provided by DC-DC converter(s)
Volts, rms
1.2
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
mA
264Vac
FARM, Filter/Autoranging Rectifier Module
Set your site on VICOR at www.vicorpower.com
Rev. 4.7
Page 2 of 12
PRELIMINARY
Electrical Characteristics (continued)
MODULE CONTROL SPECIFICATIONS
Parameter
Min
Typ
Max
Unit
Notes
Low state resistance
15
Ω
Low state current
50
mA
Bus normal
AC Bus OK (B OK)
To negative output - Bus normal
High state voltage
14.8
15.0
15.2
Vdc
Bus abnormal, 27K internal pull up to 15Vdc (see Fig.11)
B OK true threshold
235
240
245
Vdc
Output Bus voltage
B OK false threshold
200
205
210
Vdc
Output Bus voltage
Low state resistance
15
Ω
Low state current
50
mA
15.2
Vdc
150K internal pull up to 15Vdc (see Fig. 10)
Vdc
Output bus voltage
Module Enable (EN)
To negative output - Converters disabled
High state voltage
14.8
15.0
Enable threshold
235
240
Disable threshold
185
190
195
Vdc
Output bus voltage
15
17
20
Vdc
AC Bus OK and Module Enable thresholds track
Max
Unit
Notes
AC Bus OK - Module Enable, differential error*
* Tracking error between BUS OK and Enable thresholds
MODULE GENERAL SPECIFICATIONS
Parameter
Min
MTBF
Typ
>1,000,000
Hours
25˚C, Ground Benign
Baseplate material
Aluminum
Cover
Polyetherimide
Pin Material
Copper, Tin/lead solder dipped
Weight
Size
Storage Temperature
(C, T-Grade)
3.1(88)
Ounces (grams)
2.28 x 2.2 x 0.5
Inches
57,9 x 55,9 x 12,7
(mm)
-40
+125
°C
Operating Temperature (C-Grade)
-20
+100
°C
Baseplate
(T-Grade)
-40
+100
°C
Baseplate
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
FARM, Filter/Autoranging Rectifier Module
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Rev. 4.7
Page 3 of 12
PRELIMINARY
Operating Characteristics
Vdc output
➞
Vdc output
Strap
Engaged
Enable
Enable
B OK
B OK
Figure 1—Start-up at 120Vac input
Figure 2—Start-up at 240Vac input
Vdc output
Vdc output
Iac input @2A / mV
Iac input @2A / mV
Enable
Enable
B OK
B OK
Figure 3—Power down, from 120Vac
Figure 4—Power down, from 240Vac
Vdc output
Enable
B OK
Figure 5—Output overvoltage protection 240Vac range
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
Figure 6—Typical Conducted Emissions
FARM, Filter/Autoranging Rectifier Module
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Rev. 4.7
Page 4 of 12
PRELIMINARY
Application Note
The Filtered, Autoranging Rectifier Module (FARM) provides an
effective solution for the AC front end of a power supply built
with Vicor DC-DC converters. This high performance power
system building block satisfies a broad spectrum of requirements
and agency standards.
2.1 If the bus voltage is less than 200V as the slope nears
zero, the voltage doubler is activated, and the bus voltage
climbs exponentially to twice the peak line voltage.
If the bus voltage is greater than 200V, the doubler is
not activated.
In addition to providing transient/surge immunity and EMI
filtering, the FARM contains all of the power switching and
control circuitry necessary for autoranging rectification, inrush
current limiting, and overvoltage protection. This module also
provides converter enable and status functions for orderly power
up/down control or sequencing. To complete the AC front end
configuration, the user only needs to add hold-up capacitors, and
a few discrete components.
3.1 If the bus voltage is greater than 235V as the slope
approaches zero, the inrush limiting thermistor is
bypassed. Below 235V, it is not bypassed.
4.1 The converters are enabled 50 milliseconds after the
thermistor bypass switch is closed.
5.1 Bus-OK is asserted after an additional 50 millisecond
delay to allow the converter outputs to settle within
specification.
Functional Description
Power-Up Sequence. (see Fig. 8):
1.1 Upon application of input power, the output bus capacitors
begin to charge. The thermistor limits the charge current,
and the exponential time constant is determined by the
hold-up capacitor value and the thermistor cold resistance.
The slope (dv/dt) of the capacitor voltage versus time
approaches zero as the capacitors become charged to the
peak of the AC line voltage.
Power-Down Sequence. (see Fig. 8) When input power is
turned off or fails, the following sequence occurs as the bus
voltage decays:
1.2 Bus-OK is deasserted when the bus voltage falls below
210Vdc.
The switch that bypasses the inrush limiting PTC (positive
temperature coefficient) thermistor is open when power is
applied, as is the switch that engages the strap for voltage
doubling. (see Fig. 7). In addition, the converter modules
are disabled via the Enable (EN) line, and Bus-OK (BOK)
is high.
2.2 The converters are disabled when the bus voltage falls
below 190Vdc. If power is reapplied after the converters
are disabled, the entire power-up sequence is repeated. If
a momentary power interruption occurs and power is
reestablished before the bus reaches the disable threshold,
the power-up sequence is not repeated, i.e., the power
conversion system “rides through” the momentary
interruption.
Power
Up
+Out
Power
Down
90–132V
AC Line
PTC
Thermistor
Strap
L
Strap
Output
Bus
(Vdc)
400
300
200
100
0
1.1
2.1
–Out
Strap
PTC
Thermistor
Bypass
N
EN
Microcontroller
BOK
Figure 7—Functional block diagram: autoranging rectifier
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
Converter
Enable
Bus OK
3.1
50ms
50ms
4.1
5.1
2.2
1.2
Figure 8—Timing diagram: power up/down sequence
FARM, Filter/Autoranging Rectifier Module
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Rev. 4.7
Page 5 of 12
PRELIMINARY
Application Note (continued)
Off-Line Power Supply Configuration
The FARM maintains the DC output bus voltage between 250
and 370Vdc over the entire input voltage range, which is
compatible with Vicor 2nd Generation, 300V input converters as
well as 1st Generation VI-26x and VI-J6x DC-DC converters.
The FARM automatically switches to the proper bridge or
doubler mode depending on the input voltage, eliminating the
possibility of damage due to improper line connection. The
FARM1xxx is rated at 500W in the low range (90-132Vac
input), and 750W in the high range (180-264Vac input). The
FARM2xxx is rated for 750W and 1000W for the low and high
input ranges respectively. Either of these modules can serve as
the AC front end for any number and combination of compatible
converters as long as the maximum power rating is not exceeded.
Strap (ST) Pin. In addition to input and output power pin
connections, it is necessary to connect the Strap pin to the center
junction of the series hold-up capacitors (C1, C2, see Fig. 9) for
proper (autoranging) operation. Gas tubes V1 and V2 provide
capacitor protection. The bleeder resistors (R1, R2, see Fig. 9)
discharge the hold-up capacitors when power is switched off.
Capacitors C7 and C8 are recommended if the holdup capacitors
are located more than 3 inches from the FARM output pins.
Enable (EN) Pin. (see Fig. 10) The Enable pin must be
connected to the PC or Gate-In pin of all converter modules to
disable the converters during power-up. Otherwise, the
converters would attempt to start while the hold-up capacitors were
being charged through an unbypassed current limiting thermistor,
preventing the bus voltage from reaching the thermistor bypass
threshold, thus disabling the power supply. The Enable output
(the drain of an N channel MOSFET) is internally pulled up to
15V through a 150kΩ resistor.
A signal diode should be placed close to and in series with the
PC or (Gate-In) pin of each converter to eliminate the
possibility of control interference between converters.
The Enable pin switches to the high state (15V) with respect
to the negative output power pin to turn on the converters after
the power-up inrush is over. The Enable function also provides
input overvoltage protection for the converters by turning
off the converters if the DC bus voltage exceeds 400Vdc.
The thermistor bypass switch opens if this condition occurs,
placing the thermistor in series with the input voltage, which
reduces the bus voltage to a safe level while limiting input
current in case the varistors conduct. The thermistor bypass
switch also opens if a fault or overload reduces the bus voltage
to less than 180Vdc.
Holdup Box (HUB)
820µF
N
HUB820-S
2700µF HUB2700-S
1800µF HUB1800-S
3300µF HUB3300-S
C3
R1
+
N
EMI GND
Z1
2200µF HUB2200-S
1200µF HUB1200-S
B OK
C1
F1
+In
C10
C7* V1
FARM
C9
Filter/Autoranging ST
Rectifier Module
EN
N/C
L
L
Vicor DC-DC
Converter
D3
C8* V2
PC (Gate In)
PR (Gate Out)
–In
–
R2
C2
R3
PE
Part
C1,2
C3–6
R1,2
V1,2
F1,2
D1,2
C7,8 *
Z1
C9
D3,D4
C10,C11
R3
Description
Holdup capacitors
4700pF
150kΩ, 0.5W
200V MOV
3A, PC Tron
Diode
Film Cap., 0.8µf
MOV
0.47µF
1N5817
.001µF
500Ω
Vicor
Part Number
see text
01000
00127-1503
20461-200
02178
00670
C4
D1
C5
F2
+In
C11
03040
26108
PC (Gate In)
Vicor DC-DC
Converter
D2
D4
PR (Gate Out)
–In
Sizing PCB traces:
All traces shown in bold carry significant
current and should be sized accordingly.
FARM1-xxx
N/ST/L 10A rms at 90Vac and 500W
4A DC at 190Vdc and 750W
+/– In
C6
To additional modules
*
FARM2-xxx
N/ST/L 20A rms at 90Vac and 750W
+/– In
8A DC at 190Vdc and 1000W
Required if C1 & C2 are located more than
3 inches from output of FARM.
Figure 9—Converter connections
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
FARM, Filter/Autoranging Rectifier Module
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Rev. 4.7
Page 6 of 12
PRELIMINARY
Application Note (continued)
N
Bus-OK (BOK) Pin. (see Fig. 11) The Bus-OK pin is
intended to provide early-warning power fail information and
is also referenced to the negative output pin.
+In
+
15Vdc
PC (Gate In)
B OK
EMI GND
150k
Vicor DC-DC
Converter
ST
N/C
PR (Gate Out)
EN
Microcontroller
–In
–
L
Filter. (see Fig. 12) An integral input filter consists of a
common mode choke and Y rated capacitors (line-ground)
plus two X rated capacitors (line-line). This filter
configuration provides common mode and differential mode
insertion loss in the frequency range between 100kHz and
30MHz as illustrated in Figure 6.
Figure 10—Enable (EN) function
N
+
15 Vdc
EMI GND
27kΩ
N/C
+In
+5 Vdc
PC (Gate In)
B OK
Vicor DC-DC
Converter
Secondary
referenced
ST
PR (Gate Out)
EN
Microcontroller
–In
–
L
Caution: There is no input to output isolation in the FARM. It is
necessary to monitor Bus-OK via an optoisolator if it is to be
used on the secondary (output) side of the converters. A line
isolation transformation should be used when performing scope
measurements. Scope probes should never be applied
simultaneously to the input and output as this will destroy the unit.
Optocoupler DI pkg. 26106
Optocoupler SM pkg. 26109
Figure 11—Bus OK (BOK) isolated power status indicator
Hold-up Capacitors. Hold-up capacitor values should be
determined according to output bus voltage ripple, power fail
hold-up time, and ride-through time (see Fig. 13).
Many applications require the power supply to maintain
output regulation during a momentary power failure of
specified duration, i.e., the converters must hold-up or ride
through such an event while maintaining undisturbed output
voltage regulation. Similarly, many of these same systems
require notification of an impending power failure in order to
allow time to perform an orderly shutdown.
The energy stored on a capacitor which has been charged to
voltage V is:
Where:
+
L1
EMI GND
4.7nF
.47µF
.099µF
B OK
ST
N/C
EN
4.7nF
L
(1)
C = capacitance
V = voltage across the capacitor
330µH
N
ε = 1/2(CV2)
ε = stored energy
Energy is given up by the capacitors as they are discharged
by the converters. The energy expended
(the power-time product) is:
–
ε = P∆t = C(V12–V22) / 2
Where:
Figure 12—Internal filter
(2)
P = operating power
∆t = discharge interval
V1 = capacitor voltage at the beginning
of ∆t
V2 = capacitor voltage at the end of ∆t
Rearranging Equation 2 to solve for the required
capacitance:
C = 2P∆t / (V12–V22)
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
FARM, Filter/Autoranging Rectifier Module
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Rev. 4.7
(3)
Page 7 of 12
PRELIMINARY
Application Note (continued)
40
Hold-up Time
π –θ
Power Fail
Warning
θ
254V
205V
185V
Ride-Thru Time
B OK
Power
Fail
Converter
Shutdown
Figure 13—Hold-up time
The power fail warning time (∆t) is defined as the interval
between B OK and converter shutdown (EN) as illustrated
in Fig. 13. The Bus-OK and Enable thresholds are 205V and
185V, respectively. A simplified relationship between
hold-up time, operating power, and bus capacitance is
obtained by inserting these constants:
35
Power Fail Warning (ms)
Ripple (V p-p)
1300µF
1600µF
1100µF
820µF
2200µF (FARM2XXX)
30
* 680µF
25
(FARM1XXX)
20
15
10
5
0
250
*
*
500
1000
750
Operating Power (W)
Figure 14—Hold-up time vs. operating power and total bus
capacitance, series combination of C1, C2 (see Fig. 9)
C = 2P∆t / (2052 – 1852)
C = 2P∆t / (7,800)
100
Allowable ripple voltage on the bus (or ripple current in the
capacitors) may define the capacitance requirement.
Consideration should be given to converter ripple rejection
and resulting output ripple voltage. The ripple rejection (R)
of Vicor converters is specified as a function of the
input/output voltage ratio:
Where:
(5)
f = line frequency
θ = rectifier conduction angle
The approximate conduction angle is given by:
(
)
θ = Cos-1 V2/V1
90Vac
115Vac
70
60
50
40
30
20
0
250
(4)
For example, a converter whose output is 15V and nominal
input is 300V will provide 56dB ripple rejection, i.e., 10V p-p
of input ripple will produce 15mV p-p of output ripple
(see Fig. 17). Equation 3 is again used to determine the
required capacitance. In this case, V1 and V2 are the
instantaneous values of bus voltage at the peaks and valleys
(see Fig. 13) of the ripple, respectively. The capacitors must
hold up the bus voltage for the time interval (∆t) between
peaks of the rectified line as given by:
∆t = (π – θ) / 2πf
80
10
500
750
1000
Operating Power (W)
Figure 15—Ride-through time vs. operating power
30
*
25
P-P Ripple Volts (V)
R = 30 + 20log(Vin / Vout)
Total
capacitance
820µF
90
Ride-through Time (ms)
It should be noted that the series combination (C1, C2,
see Fig. 9) requires each capacitor to be twice the calculated
value, but the required voltage rating of each capacitor is
reduced to 200V.
20
*
15
10
5
0
250
1100µF
820µF
1300µF
1600µF
500
680µF
* 2200µF
(FARM1XXX)
(FARM2XXX)
750
1000
Operating Power (W)
Figure 16—Ripple voltage vs. operating power and bus
capacitance, series combination of C1, C2 (see Fig. 9)
(6)
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
FARM, Filter/Autoranging Rectifier Module
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Rev. 4.7
Page 8 of 12
PRELIMINARY
Application Note (continued)
Determining Ride-through Time. Figure 15 illustrates ridethrough time as a function of line voltage and output power,
and shows that at a nominal line of 90Vac, ride-through would
be 68 ms. Ride-through time is a function of line voltage.
80
Ripple Rejection (dB)
75
70
Determining Ripple Voltage on the Hold-up Capacitors.
Figure 16 is used to determine ripple voltage as a function of
operating power and bus capacitance, and shows that the
ripple voltage across the hold-up capacitors will be 12V p-p.
65
60
55
50
45
40
2
5
15
30
50
Output Voltage
Figure 17—Converter ripple rejection vs. output voltage
Another consideration in hold-up capacitor selection is their
ripple current rating. The capacitors’ rating must be higher
than the maximum operating ripple current. The approximate
operating ripple current (rms) is given by:
I rms = 2P/Vac
(7)
Where: P = total output power
Vac = operating line voltage
Determining the Ripple on the Output of the
DC-DC Converter. Figure 17 is used to determine the ripple
rejection of the DC-DC converter and indicates a ripple
rejection of approximately 60 dB for a 12V output. Since the
ripple on the bus voltage is 12Vac and the ripple rejection of
the converter is 60 dB, the output ripple of the converter due
to ripple on its input (primarily 120 Hz) will be 12mV p-p.
Note that 2nd Generation converters have greater ripple
rejection then either VI-200s or VI-J00s.
For more information about designing an autoranging
AC input power supply using the FARM and Vicor DC-DC
converter modules, contact Vicor Applications Engineering at
the nearest Vicor Technical Support Center, or send E-mail to
[email protected].
•••
Calculated values of bus capacitance for various hold-up
time, ride-through time, and ripple voltage requirements are
given as a function of operating power level in Figures 14, 15,
and 16, respectively.
Example
In this example, the output required from the DC-DC converter
at the point of load is 12Vdc at 320W. Therefore, the output
power from the FARM would be 375W (assuming a converter
efficiency of 85%). The desired hold-up time is 9 ms over an
input range of 90 to 264Vac.
Determining Required Capacitance for Power Fail
Warning. Figure 14 is used to determine capacitance for a
given power fail warning time and power level, and shows
that the total bus capacitance must be at least 820 µF. Since
two capacitors are used in series, each capacitor must be at
least 1,640 µF. Note that warning time is not dependent on
line voltage. A hold-up capacitor calculator is available on the
Vicor website, at vicorpower.com.
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
FARM, Filter/Autoranging Rectifier Module
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Rev. 4.7
Page 9 of 12
PRELIMINARY
Mechanical Diagram
Converter Pins
No. Function Label
1
Neutral
N
2
EMI
GND
3
NC
4
Line
L
5
–Out
–
6
Enable
EN
7
Strap
ST
8 BUS OK BOK
9
+Out
+
0.50 ±0.02
12,7 ±0,5
2.20
55,9
1.74
44,2
0.23
(REF)
5,8
0.01
2.000
0.49
12,4
0.12
3,1
0.300 ±0.015
0.10
2,5
50,80
7,62 ±0,38
0.10
X 45˚
2,5
CHAMFER
1
2
3
4
0.35 (2X)
8,8
12
0.300 ±0.015
7,62 ±0,38
9
8
2.28 1.30
57,9 33,0
1.900
48,26
6
Threaded (Style 2)
4-40 UNC-2B (6X)
0.130
(6X)
5
0.150 DIA,(2X)
3,81
0.080 DIA,(7X)
2,03
0.42
10,6
0.700
17,78
1.000
25,40
1.400
35,56
or
FULL R (6X)
3,30
7
0.400
10,16
Slotted (Style 1)
0.65
16,5
R
0.06
(3X)
1,5
0.54
(9X)
13,7
Pin Style 1&S
0.62
(9X)
15,7
Pin Style 2 &N
Use a 4-40 Screw (6X)
Torque to:
5 in-lbs
0.57 N-m
2.20
55,9
(REF.)
(Short )
(Long)
or
Thru Hole (Style 3)
#30 Drill Thru (6X)
(0.1285)
PCB Mounting Specifications
PCB THICKNESS
0.062 ±0.010
1,57 ±0,25
PLATED
THRU HOLE
DIA
1.790
45,47
0.06
R
(4X)
1,5
INBOARD
SOLDER
MOUNT
ONBOARD
SOLDER
MOUNT
PIN STYLE 1&S
PIN STYLE 2&N
(7X)
0.094 ±0.003
2,39 ±0,08
0.094 ±0.003
2,39 ±0,08
(2X)
0.164 ±0.003
4,16 ±0,08
0.164 ±0.003
4,16 ±0,08
2
3
PINS STYLES
STYLE 1 & 2: TIN/LEAD
HOT SOLDER DIPPED
STYLE S & N: GOLD PLATED COPPER
4
1.584*
40,23
1.900*
48.26
48,26
9
8
7
6
5
0.400*
10,16
0.43
10,9
0.700*
17,78
0.195
4,95
ALUMINUM
BASEPLATE
0.158
4,01
1
ALL MARKINGS
THIS SURFACE
1.000*
25,40
1.400*
35,56
0.53
13,5
* DENOTES
±0.003
TOL =
±0,08
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
FARM, Filter/Autoranging Rectifier Module
Set your site on VICOR at www.vicorpower.com
Rev. 4.7
Page 10 of 12
PRELIMINARY
Notes
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
FARM, Filter/Autoranging Rectifier Module
Set your site on VICOR at www.vicorpower.com
Rev. 4.7
Page 11 of 12
Vicor’s comprehensive line of power solutions includes modular, high
density DC-DC converters and accessory components, configurable power
supplies, and custom power systems.
Information furnished by Vicor is believed to be accurate and reliable. However, no responsibility is
assumed by Vicor for its use. No license is granted by implication or otherwise under any patent or patent
rights of Vicor. Vicor components are not designed to be used in applications, such as life support systems,
wherein a failure or malfunction could result in injury or death. All sales are subject to Vicor’s Terms and
Conditions of Sale, which are available upon request.
Specifications are subject to change without notice.
45
Component Solutions
for Your Power System
Vicor Corporation
25 Frontage Road
Andover, MA, USA 01810
Tel: 800-735-6200
Fax: 978-475-6715
Email
Vicor Express: [email protected]
Technical Support: [email protected]
Vicor Corp. Tel: 800-735-6200, 978-470-2900 Fax: 978-475-6715
FARM, Filter/Autoranging Rectifier Module
P/N 22952
Set your site on VICOR at www.vicorpower.com
Rev. 4.7
4/03/10M