GALAXY GPEV6-5V0-55-S

Gemini Series
DC/DC Converter Powers ≥600MHz Microprocessors
The Gemini Series is a high current three
quarter brick DC/DC converter with:
1.5 to 2.5 Volt, 55 Amp Output
3.3 or 5V Input Option
No Heat Sinking Required
4 Pin Programmable Output Voltage
87% Efficient: 3.3Vin and 2.5Vout @ 40A
84% Efficient: 5Vin and 2.5Vout @ 55A
137.5 Watts @ 100° Baseplate
33 Watts/cu. inch
2.3" x 3" x 0.6"
Fixed Frequency Operation
Automatic OVP Tracking to Voltage Trim
Current Limiting with Auto–Recovery
Power Good Signal
Two Year Warranty
Control Functions
Remote Sense
Output Enable
Protection Features
Over Temperature Protection
Over Voltage Protection
Over Current Protection
Typical Characteristics
Output Setpoint Accuracy: ±1%
Load & Line Regulation: ±0.5%
Total Regulation: ±5%
Noise & Ripple: 100 mVp–p
Output Trim
Gemini Series, Page 1
WWW.GALAXYPWR.COM
Part No. 98–004 Rev. 1.0
Specifications
General Specifications
Operating Temperature
0°C to +45°C (@200LFM)
Storage Temperature
–20°C to +100°C
Relative Humidity
10% to 95% RH,
Non–condensing
Vibration
Weight
10–500Hz 0.75g peak
75gm, typical (GPEV6–3V3–40)
200gm, typical (–S, –L)
Material Flammability
MTBF
MIL–HDBK–217
UL94V–0
1.2million hours*
* Note: 50% load; 200LFM, 45°C ambient
Input Characteristics
Operating Air Temperatures from 0°C to +45°C with 200 LFM, D0, D1, D2, D3 pins low state unless otherwise specified.
Parameter
Name
Input Voltage
Test Condition
Requirement
Min
Max
VI
IO = 40A
3.37
3.8
V
VI
IO = 55A
4.5
5.25
V
Var
Symbol
3V3–40
–S, –L
Unit
Input Low Line Power-On V
VIon
Module Power On
–
3.35
V
No Load Input Power
PIL
VI =VInom
–
6
W
Input Capacitor
3V3–40
20 (330µF)
6600
–
µF
(external to the converter)
–S, –L
12 (330µF)
3900
–
µF
Input Current
3V3–40
II
VI = 3.43V, IO = 40A, VO = 2.5V
–
35.2
A
–S, –L
II
VI = 5V, IO = 55A, VO = 2.5V
–
35
A
Efficiency
3V3–40
N
VI = 3.43V, IO = 40A, VO = 2.5V
83
–
%
(with Local Sense)
–S, –L
N
VI = 5V, IO = 55A, VO = 2.5V
79
–
%
Reflected Input Ripple
3V3–40
dII
VI = 3.43V, IO = 40A, (Note 1)
–
6.0
A P–P
–
11.0
AP–P
CIN = 20 (330µF Tantalum)
ESR = 60 mΩ
–S, – L
dII
VI = 5V, IO = 55A, (Note 1)
CIN = 12 (330µF Tantalum)
ESR = 60 mΩ
Switching Frequency
FS
250 Typ
KHz
Note 1: Measure input reflected current which is drawn from input capacitor CIN by converter. Place 3" loop between CIN and VIN of the converter.
Gemini Series, Page 2
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Part No. 98–004 Rev. 1.0
Specifications
Output Characteristics
Over the complete baseplate temperatures and input voltage ranges, D0, D1, D2, D3 pins low state unless otherwise specified.
Parameter
Name
Output Voltage Set Point
Rated Output Current
Line & Load Regulation
Noise and Ripple
Test Condition
Var
3V3–40
–S, –L
3V3–40
–S, –L
3V3–40
–S, –L
3V3–40
Symbol
VOnom
VOnom
IO
IO
Remote Sense
Compensation Round Trip
Static Output Overvoltage
Protection (Nom) Latching
Output Voltage Protection
Response Time
Current Limit (Nom)
–
100
120
mVP–P
2.375
2.500
2.625
V
2.375
2.500
2.625
V
–
–
100
mV
VI = VI nom, IO = 5A
107
–
120
%VO
tOVP
VI = VI nom, IO = 5A
–
–
50
µS
IL
IL
ISC
ISC
VI = 3.43V, VO = 2.5V
VI = 5.0V, VO = 2.5V
VI = 3.43V, VO < 0.6V
VI = 5.0V, VO < 0.6V
42
57
–
–
–
–
–
–
–
110
–
–
55
70
125
A
A
Arms
Arms
°C
Short Circuit Current
Over–temperature
Shutdown (Tbaseplate)
Load Transient Response,
VO deviation from steady
state (settling time to ±1%)
IO = 10–38A @ 28AµS (di/dt)
VI = 3.3V(3V3-40)
VI = 5.0V(–S, –L)
VO = 2.5V pos. or neg. step
CO = 28–470µF Cap
(470µF, ESR=55mΩ)
CIN=12–330µF Cap
(330µF, ESR=60mΩ)
VI =VImin to VImax, IO=0–40A
(See figures on page 5)
–
–
3
%VO
–
–
1200
µS
Turn–on Time
20
–
120
mS
Turn–on Risetime (10–90%)
Output Filter Capacitance
Voltage Trim
8
330
94.5
–
–S, –L
3V3–40
–S, –L
3V3–40
–S, –L
Unit
2.500
2.500
–
–
–
–
100
3V3–40
VOPK
Notes
1, 2, 3
ton
trise
Cout
Vtrim
VI = 3.43V, IO = 20A
VI = 5.0V, IO = 30A
VO = VOnom
VO = VOnom
VI = 3.37–3.8V, IO = 0–40A
VI = 4.5–5.25V, IO = 0–55A
VI = 3.43V, IO = 40A
CO = 330µF, 0.47µF
VI = 5.0V, IO = 55A
CO = 330µF, 0.47µF
VI = 3.37–3.8V, IO = 0–40A
CO = 20 (470µF)
VI = 4.5–5.25V, IO = 0–55A
CO = 20 (470µF)
VI = VI min, IO = full load
Requirement
Typ
Max
2.475
2.475
0
0
–
–
–
–S, –L
Total Regulation
(Load, Line, Short term and
Long term Dynamic
Temp Drift)
Min
VI =5.0V, IO=IOmax
VI =VInom, IO=IOmax/2
VO=2.5V, Short Pin 1 & 10
95.5
2.525
V
2.525
V
40
A
55
A
12.5
mV
12.5
mV
120 mVP–P
30
mS
13,200
µF
96.5 %VOnom
Notes: 1. The converter output voltage shall be stable when (13,200µF total) tantalum low ESR filter capacitors are connected across the output of the converter.
2. For 3.43 Input Voltage Rail having IOmax = 40A, the minimum input filter capacitor required is 6600µF (use multiple 330µF tantalum capacitor having 60mΩ ESR.)
3. For 5.00 Input Voltage Rail having IOmax = 55A, the minimum input filter capacitor required is 3960µF (use multiple 330µF tantalum capacitor having 60mΩ ESR.)
Gemini Series, Page 3
WWW.GALAXYPWR.COM
Part No. 98–004 Rev. 1.0
Specifications
Output Voltage Adjustments
Control Pin
Output Voltage
Tolerance ±1.2%
D3
D2
D1
D0
Volts DC
1
1
1
1
1.429
1
1
1
0
1.500
1
1
0
1
1.571
1
1
0
0
1.643
1
0
1
1
1.714
1
0
1
0
1.786
1
0
0
1
1.857
1
0
0
0
1.929
0
1
1
1
2.000
0
1
1
0
2.071
0
1
0
1
2.143
0
1
0
0
2.214
0
0
1
1
2.286
0
0
1
0
2.357
0
0
0
1
2.429
0
0
0
0
2.500
Note: the converter shall be tested for four bits logic control.
Control Signal Characteristics
D0, D1, D2, D3 pins low state unless otherwise specified.
Parameter
Name
Test Condition
Symbol
Enable_H*
Enable_H Source Current
Enable_H Voltage Low
Enable_H Voltage High
Enable_H High (Output Voltage)
Powergood_H High
Powergood_H Low
Fault_H High
Fault_H Low
Fault_H Source Current
Min
Requirement
Typ
Max
Unit
VI = VInom, IO = 20A
VI = VInom, IO = 20A
VS – 5.0V, RL = 4K
VI = VInom
RL = 4K TO –SENSE
–
–
4.5
2.475
3.3
–
4.0
–
1
–
–
–
2.500
–
–
–
–
–
1.0
0.8
5.2
2.525
–
0.8
5.1
0.8
–
mA
V
V
V
V
V
V
V
mA
* Use Open Collector Logic to control Enable function.
Gemini Series, Page 4
WWW.GALAXYPWR.COM
Part No. 98–004 Rev. 1.0
Application Notes
Control Signals
Control Signal Characteristics: Per Table on Page 4.
Enable_H: This input signal is used to enable the output of the
converter when activated (active High). The signal is referenced to
either the output side (-Sense) or GND. It has an internal pull-up
resistor. To disable the converter requires an open collector logic
signal to pull it down.
4 Bit Logic Signals: The state of the 4 bit control signals controls
the output voltage. Normally, the 4 bits are in a ‘low state’ and
provide for a 2.5V output voltage. The output voltage may be
programmed between 1.429 to 2.5V by setting appropriate logic
bits ‘high’ through D0, D1, D2, and D3.
Powergood_H: The Powergood signal is in a ‘high’ state when the
output voltage is within +/- 7.5% of the output voltage programmed
by the 4 logic bit inputs.
OVPFault_H: This signal is in a ‘high’ state when the output
voltage is greater than +/-15% of the output voltage programmed by
the 4 bit logic inputs or exceeds the maximum operating
temperature of the converter. This output is the open emitter of a
transistor which pulls to +5V in the high state and is open in the
low state. For driving logic, an appropriate pull down resistor from
OVPFault_H to – Sense is required. The OVPFault_H is asserted
high when OVPFault is activated. When driving an SCR to ‘crowbar’ the input source from a Fault_H signal, use the circuit below:
Trim: The output voltage may be lowered from the nominal
programmed value by adding an external resistor from the TRIM
pin (J1-10) to – Sense (J1-1). This is used to obtain output voltages
between the programmed values. The maximum value the output
may be trimmed is approximately –4.5% of Vprog. The resistor
value may be calculated from the following formula:
(2490) (Vtrim)
Rext = ––––––––––––––––––– - 15000
(3.49) (Vprog – Vtrim)
Vtrim = Desired output voltage with Rext tied from TRIM pin to
– SENSE.
Vprog = Nominal programmed output voltage
Notes: 1. Vtrim must be less than Vprog.
2. The trim pin does not change the OVP or Powergood_H trip
points. These are set by the 4 bit logic inputs
Enable Circuit Turn On Time
OFF >3V
ON ≤0.6V
220K
2N7000
or
Equivalent
ON/OFF
Gate Drive
Voltage
To (–)
Output Load Conditions (Turn On)
+5V
2N2222
Fault_H
To VENABLE Pin
100Ω
1K
C=(20)470µF
Tantalum Capacitors
9400µF
20 (330µF)
C=6600µF
SCR
3.37-5.25V
Input
0.µ1F
+
Output
RLOAD=40A
Turn On Time
Falltime <1µsec
4.5V
Gate Drive
Voltage
0.8V
10V
10V
J1–J10
Trim Pin
TURN_ON
2.5V
Time
Time
0V
VO
90%
2.5V
Vnom
Vnom
VOUT
VOUT
Trise
10%
Time
Time
tOVP
5.0V
VO
OVPfault_H
PowerGood_H
J1-J7
PowerGood_H
(Volt)
Time
Gemini Series, Page 5
5.0V
J1-J9
OVPfault_H
WWW.GALAXYPWR.COM
0
Time
Part No. 98–004 Rev. 1.0
Package Detail
COnfiguration/Dimensions
Pin Assignments
Aluminum plate
flatness = 0.001 in/in
2.300 Max
0.145 +/-0.02
standoff to power pins
P16
0.025
VIN
RTN
P8
VO
RTN
3.025
Max +VO
A
+VIN
control
pins
A
control
board
control
pins
P1
P9
9
1
10
2
standoff/insert
max dia = 0.225"
0.300 min recommenced
clearance area around standoff
0.190 +/-0.020
0.300 min
0.052 max
0.025
airflow direction
-S version only
Bottom View (facing pins)
Side View
Notes: 1. GPEV6-3V3-40 only: No heatsink, max height = 0.52"
2. Variations -S, -L only: 0.88" heatsink attached to plate.
Max height w/ heatsink =1.4"
3. Components on side 2 shall be 0.030" min. below the standoff.
2.300 Max
1.605
0.595
0.050 Max
2 plcs
0.100
0.025 Max
2 plcs
Power Pins
0.150 ctr-ctr
PCB
control board
Power Pins
0.200 ctr-ctr
3.025
Max
2. 812
2.737
P1
P9
2.000 ctr-ctr
2.025
Power Pins (60 mils)
Pin
Designation
P1
Vin
P2
Vin
P3
Vin
P4
Vin
P5
Vin RTN
P6
Vin RTN
P7
Vin RTN
P8
Vin RTN
P9
Vo
P10
Vo
P11
Vo
P12
Vo
P13
Vo RTN
P14
Vo RTN
P15
Vo RTN
P16
Vo RTN
Signal Pins (25 mils sq.)
Pin
Designation
J1-1
-Sense
J1-2
+Sense
J1-3
D0
J1-4
D1
J1-5
D2
J1-6
D3
J1-7
PowerGood_H
J1-8
Enable_H
J1-9
OVPFault_H
J1-10 Trim
1.425
control
pins
0.150
1
0.100
standoff
0.475
1.450
1.725
2.100
0.162
optional
insert
Bottom View (facing pins)
Notes: Standoff is used for mounting the heatsink
on the plate of the converter. Use 4 - 40 screws.
Control pins: 0.025 sq pin, 2x 10 pos.
Power pins: 0.060 +/- 0.005 diameter
Gemini Series, Page 6
WWW.GALAXYPWR.COM
Part No. 98–004 Rev. 1.0
PACKAGE DETAIL
Heatsink Variations
Fins Parallel to Long Side (–L)
2.650
13x
0.88
0.163
1.130
1.250
4x
0.300
2.200
11x
0.196
0.040
0.475
0.120
4x Ø 0.160
0.150
Note: Recommended fin spacing
2.975
Fins Perpendicular to Long Side (–S)
15x 0.050
2x 0.040
0.88
14x 0.171
0.150
0.293
2.975
0.163
2.650
0.120
Note: Recommended fin spacing
2.200
0.120
1.130
0.475
4x Ø 0.160
ORDERING INFORMATION
Model
Number
GPEV6-3V3-40
GPEV6-5V0-55-S*
GPEV6-5V0-55-L*
Input
Voltage
Output
Voltage
Max
Current
Efficiency
(Typ)
3.3–5.25V
4.5–5.25 V
4.5–5.25V
2.5 V
2.5 V
2.5 V
40 A
55 A
55 A
87 %
84%
84%
* –S: short heatsink fins (perpendicular to long side)
–L: long heatsink fins (parallel to long side)
Gemini Series, Page 7
WWW.GALAXYPWR.COM
Part No. 98–004 Rev. 1.0
Galaxy Power Inc. warrants to the original purchaser that the products conform to this data sheet and are free from
material and workmanship defects for a period of two (2) years from the date of manufacture, if this product is used within
specified conditions. Galaxy Power Inc. reserves the right to make changes to the product(s) or information contained
herein without notice. No liability is assumed as a result of their use or application. No rights under any patent accompany
the sale of any such products or information. For additional details on this limited warranty consult the factory.
Gemini Series, Page 8
155 Flanders Road Westborough, MA 01581
508–870–9775 Fax: 508–870–9796
e–mail: [email protected]
website: http://www.galaxypwr.com
WWW.GALAXYPWR.COM
© Copyright 2000 Galaxy Power. Specifications subject to change without notice.
Part No. 98–004 Rev. 1.0