ETC UV300-3

®
M I C R O V E R T E R
RO
MICROVERTER
World’s Most Advanced Ultra High
Density Single and Triple Output
DC-DC Converters
®
DC-DC Converters, 200-250 Watt Family
Evaluation Boards and Triple Output Modules Available
Up to 252 Watts
28, 48, and 300 VDC Input
DESCRIPTION
MicroVerter modules are high density DCDC converters designed for use in telecom and other centralized modular and
distributed power applications. Three
input voltage ranges are available and
all use metal PC boards, planar transformers,
and surface mount construction to produce up to 252 watts in a tiny package.
F E AT U R E S
Miniature Size
High Density – Up to 58 W/in.3
Constant Frequency – 370KHz
Parallelable with Current Sharing
Fault Tolerant – n+m Redundancy
Extremely Low Thermal Resistance
Output Good Signal
Synchronization Option
UL, CSA, & TUV Approvals
Non-Shutdown Over Voltage Protection
Logic On-Off
Thermal Protection
Current Limit/Short Circuit Protection
Isolated Auxiliary Outputs
MODEL SELECTION
Model Number
Input
28 VDC
48 VDC
300 VDC
(36-72V)
(220-400V)
(20-32V)
Single Output
µV28-2
µV48-2
µV300-2
µV28-3
µV48-3
µV300-3
µV28-5
µV48-5
µV300-5
µV28-8
µV48-8
µV300-8
µV28-12
µV48-12
µV300-12
µV28-15
µV48-15
µV300-15
µV28-24
µV48-24
µV300-24
µV28-28
µV48-28
µV300-28
Triple Output
µV28-T512 µV48-T512 µV300-T512
µV28-T515
µV48-T515 µV300-T515
Output
Voltage Current
2.1V
3.3V
5V
8V
12V
15V
24V
28V
60A
50A
40A
30A
20A
16A
10A
9A
5V
12V
-12V
5V
15V
-15V
35A*
3A*
3A*
35A*
3A*
3A*
*Maximum Total Output Power 185 W. (See p. 19 for min. load requirements.)
Option: --S Synchronization Feature
12
RO Associates, Inc. • Sunnyvale, CA • 408 744-1450 • Fax: 408 744-1521 • email: [email protected]
Logic disabled power in
Input ripple rejection
Input overvoltage
OUTPUT (Singles and Main Output of Triple)
Set point accuracy
Load regulation
Line regulation
Ripple
Trim range
Remote sense compensation
OVP (non shutdown auto. recovery)
Current Limit (auto.recovery)
Current sharing (automatic)
Transient response singles
Transient response main output triples
Transient response (see page 19)
Temp drift
Efficiency (see curves page 17)
MIN
20
18
TYPICAL
24-28
MAX
32
2.6x10-4
20
1.5
7.5
0.35
60
32
60
.02
.02
1
±1
.2
.2
3
±10
0.5
120*
110-120
±5
50
200
UNITS
VDC
VDC
Coulombs
%
watts
watts
watts
dB
VDC
%
%
%
%p-p
%
V total
%
%
%
µs
µs
CONDITIONS
75% full output power
full load, nominal line
singles
triples
@ 120 Hz
no damage to units
no load
0 to full load
over range
0 to 20 MHz
consult factory for extended range
S E R I E S
INPUT
Input voltage
Brownout
In rush charge
Input reflected ripple
No load power dissipation
µ V 2 8
M I C R O V E R T E R ® µ V 2 8 S E R I E S S P E C I F I C AT I O N S
* or Vout +.5V whichever is greater
full load
full load
20-80% load,.5A/µs, Vout 1%
10-20A, aux. loads 2.5A, .25A/µs, Vout 1%
.02
%/°C
±1
.5
.1
.5
%
%
%
%p-p
%
µs
µs
µs
%/°C
10A on main, no load auxiliaries
0 to full load
over range
0 to 20 MHz
full load
20-80% load, Vout within 1%
low line to high line, Vout 1%
50-100% load, Vout 1%
OUTPUT (Auxiliary Outputs of Triples)
Set point accuracy
Load regulation
Line regulation
Ripple
Current Limit (auto. recovery)
Transient response
Transient response
Transient response
Temp drift
±0.5
.2
.01
.25
110-120
200
200
200
.06
CONTROL
Turn on time
Logic turn on time
Logic disabled current
2.5
1
1
ms
ms
mA
input power applied, Vout 1%
Vout within 1%
sink
consult factory for procedure
2200
VDC
VDC
VDC
pF
ISOLATION
Input to output
Input to case
Output to case
Input to output capacity
THERMAL
Operating temperature
Automatic shut down temperature
Thermal resistance case to ambient
WEIGHT
singles
triples
SIZE
singles
triples
(outline drawings see page 16)
1000
1000
200
-40
+100
+105
4.2
3.3
7
9
0.5x2.4x3.6
0.5x2.4x4.6
+100
+110
°C case
°C case
°C/w
°C/w
oz.
oz.
inches
inches
single @ Tc=100°C
triple @ Tc=100°C
RO Associates, Inc. • Sunnyvale, CA • 408 744-1450 • Fax: 408 744-1521 • email: [email protected]
13
S E R I E S
µ V 4 8
M I C R O V E R T E R ® µ V 4 8 S E R I E S S P E C I F I C AT I O N S
INPUT
Input voltage
Brownout
In rush charge
Input reflected ripple
No load power dissipation
Logic disabled power in
Input ripple rejection
Input overvoltage
OUTPUT (Singles and Main Output of Triple)
Set point accuracy
Load regulation
Line regulation
Ripple
Trim range
Remote sense compensation
OVP (non shutdown auto. recovery)
Current Limit (auto.recovery)
Current sharing (automatic)
Transient response singles
Transient response main output triples
Transient response (see page 19)
Temp drift
Efficiency (see curves page 17)
MIN
36
32
72
14
100
.02
.02
1
±1
.2
.2
3
±10
0.5
120*
110-120
±5
50
200
±0.5
.2
.01
.25
CONTROL
Turn on time
Logic turn on time
Logic disabled current
ISOLATION
Input to output
Input to case
Output to case
Input to output capacity
3000
1500
500
THERMAL
Operating temperature
Automatic shut down temperature
Thermal resistance case to ambient
-40
+100
singles
triples
SIZE
singles
triples
(outline drawings see page 16)
MAX
72
2.6x10-4
20
2.5
7.5
1
60
OUTPUT (Auxiliary Outputs of Triples)
Set point accuracy
Load regulation
Line regulation
Ripple
Current Limit (auto.recovery)
Transient response
Transient response
Transient response
Temp drift
WEIGHT
TYPICAL
48
UNITS
VDC
VDC
Coulombs
%
watts
watts
watts
dB
VDC
%
%
%
%p-p
%
V total
%
%
%
µs
µs
.02
%/°C
±1
.5
.1
.5
110-120
%
%
%
%p-p
CONDITIONS
75% full output power
full load, nominal line
singles
triples
@ 120 Hz
no damage to unit
no load
0 to full load
over range
0 to 20MHz
consult factory for extended range
* or Vout +.5V whichever is greater
full load
full load
20-80% load,.5A/µs, Vout 1%
10-20A, aux. loads 2.5A, .25A/µs, Vout 1%
10A on main, no load auxiliaries
0 to full load
over range
0 to 20 mHz
% full load
20-80% load, Vout within 1%
low line to high line, Vout 1%
50-100% load, Vout 1%
200
200
200
.06
µs
µs
µs
%/°C
2.5
1
1
ms
ms
mA
input power applied, Vout 1%
Vout within 1%
sink
consult factory for procedure
2200
VDC
VDC
VDC
pF
+105
4.2
3.3
7
9
0.5x2.4x3.6
0.5x2.4x4.6
+100
+110
°C case
°C case
°C/w
°C/w
oz.
oz.
inches
inches
single @ Tc=100°C
triple @ Tc=100°C
RO Associates, Inc. • Sunnyvale, CA • 408 744-1450 • Fax: 408 744-1521 • email: [email protected]
S E R I E S
M I C R O V E R T E R ® µ V 3 0 0 S E R I E S S P E C I F I C AT I O N S
MIN
220
180
MAX
400
4.5x10-5
20
2.5
7.5
1
60
Logic disabled power in
Input ripple rejection (120Hz)
OUTPUT (Singles and Main Output of Triple)
Set point accuracy
Load regulation
Line regulation
Ripple
Trim range
Remote sense compensation
OVP (non shutdown auto. recovery)
Current Limit (auto.recovery)
Current sharing (automatic)
Transient response singles
Transient response main output triple
Transient response (See page 19)
Temp drift
Efficiency (See curves page 17)
TYPICAL
300
±10
.02
.02
1
+10, -30
±1
.2
.2
3
0.5
120*
110-120
±5
50
200
UNITS
VDC
VDC
Coulombs
%
watts
watts
watts
dB
%
%
%
%p-p
%
V total
%
%
%
µs
µs
CONDITIONS
75% full output power
full load, nominal line
singles
triples
@ 120 Hz
no load
0 to full load
over range
0 to 20 MHz
consult factory for extended range
* or Vout +.5V whichever is greater
full load
full load
20-80% load,.5A/µs, Vout 1%
10-20A, aux. loads 2.5A, .25A/µs, Vout 1%
.02
%/°C
±1
.5
.1
.5
%
%
%
%p-p
%
µs
µs
µs
%/°C
10A on main, no load auxiliaries
0 to full load
over range
0 to 20 mHz
full load
20-80% load, Vout within 1%
low line to high line, Vout 1%
50-100% load, Vout 1%
OUTPUT (Auxiliary Outputs of Triples)
Set point accuracy
Load regulation
Line regulation
Ripple
Current Limit (auto.recovery)
Transient response
Transient response
Transient response
Temp drift
±0.5
.2
.01
.25
110-120
200
200
200
.06
CONTROL
Turn on time
Logic turn on time
Logic disabled current
250
2
1
ms
ms
mA
input power applied, Vout 1%
Vout within 1%
sink
consult factory for procedure
5700
VDC
VDC
VDC
pF
ISOLATION
Input to output
Input to case
Output to case
Input to output capacity
4500
2500
500
THERMAL
Operating temperature
Automatic shut down temperature
Thermal resistance case to ambient
-40
+100
WEIGHT
SIZE
singles
triples
singles
triples
+105
4.2
3.3
7
9
0.5x2.4x3.6
0.5x2.4x4.6
+100
+110
°C case
°C case
°C/w
°C/w
oz.
oz.
inches
inches
µ V 3 0 0
INPUT
Input voltage
Brownout
In rush charge
Input reflected ripple
No load power dissipation
single @ Tc=100°C
triple @ Tc=100°C
(outline drawings see page 16)
RO Associates, Inc. • Sunnyvale, CA • 408 744-1450 • Fax: 408 744-1521 • email: [email protected]
15
MICROVERTER
®
Outline Drawings
SINGLE OUTPUT
M I C R O V E R T E R
®
O U T L I N E
RO
Note: Filled pins (marked •) are not
provided in µV300 series models
TRIPLE OUTPUT
Note: Filled pins (marked •) are not
provided in µV300 series models
16
RO Associates, Inc. • Sunnyvale, CA • 408 744-1450 • Fax: 408 744-1521 • email: [email protected]
P E R F O R M A N C E
Performance Data
EFFICIENCY CURVES
2, 3, & 5V Output Models
12 & 24V Output Models
90
80
3.3V
75
70
2V
50
100
150
50
100
150
200
OUTPUT POWER, WATTS
Triple Output Models
Triple Output Models
250
85
EFFICIENCY, PERCENT
EFFICIENCY, PERCENT
80
OUTPUT POWER, WATTS
85
80
5V@ 22A
75
24V
75
200
12V
85
®
5V
M I C R O V E R T E R
EFFICIENCY, PERCENT
EFFICIENCY, PERCENT
85
5V@ 13A
80
75
5V@5A
70
50
100
150
200
70
50
100
150
OUTPUT POWER, WATTS
OUTPUT POWER, WATTS
5V Load Fixed, Aux. Output Loads
Varied From 0 to 3A Each
Aux. Loads Fixed at ±2A, 5V Load Varied
All Loads Varied
200
Note: Typical Efficiency for Tc = 25°C and Nominal Input.
Input and Output Measured at the Pins.
RO Associates, Inc. • Sunnyvale, CA • 408 744-1450 • Fax: 408 744-1521 • email: [email protected]
17
MICROVERTER
Performance Data (continued)
Thermal Performance-Single Output
5
100
4
75
3
2
50
1
25
0
0
25
50
75
AMBIENT TEMPERATURE, °C
100
1 - With No Heatsink and No Airflow
2 - With 2005 Heatsink and No Airflow or, with a 2.2°C/W Heatsink
3 - With 2005 Heatsink and 200 LFM Airflow or, with a 1.8°C/W Heatsink
4 - With 2005 Heatsink and 400 LFM Airflow or with a 1.2°C/W Heatsink
5 - Output Power vs. Case Temperature. No Derating Required for Tc<100°C
Thermal Performance-Triple Output Models
5
100
OUTPUT POWER, % OF FULL LOAD
M I C R O V E R T E R
®
THERMAL PERFORMANCE
OUTPUT POWER, % OF FULL LOAD
P E R F O R M A N C E
®
RO
4
75
3
2
50
1
25
0
0
25
50
75
AMBIENT TEMPERATURE, °C
100
1 - With No Heatsink and No Airflow
2 - With 2006 Heatsink and No Airflow or, with a 2.0°C/W Heatsink
3 - With 2006 Heatsink and 200 LFM Airflow or, with a 1.5°C/W Heatsink
4 - With 2006 Heatsink and 400 LFM Airflow or with a 1.0°C/W Heatsink
5 - Output Power vs. Case Temperature. No Derating Required for Tc<100°C
18
RO Associates, Inc. • Sunnyvale, CA • 408 744-1450 • Fax: 408 744-1521 • email: [email protected]
P E R F O R M A N C E
OUTPUT RIPPLE & TRANSIENT RESPONSE
Output Ripple
Output
Ripple
Transient
Transient Response
1
1 µs
50 mV
1
Vout
50 µs
100mV
1 5V
2
100 MS/s
M I C R O V E R T E R
®
2
Iout
50 µs
10A
0A
100 MS/s
MODEL µV48-5. 48V INPUT, 40A LOAD,
DSO, 400MHZ ANALOG BW, 100 MS/s SAMPLING.
MODEL µV48-5
LOAD STEP 8A-32A-8A. CURRENT SLEW RATE 0.5A/µs.
MINIMUM LOAD - TRIPLES
Minimum 5V Load vs. Auxiliary Output Power
Minimum 5V Load vs. Auxiliary
y Output Power
µV300 Triple Output Models
2.0
2.0
1.5
1.5
5V LOAD A
5V LOAD A
µV28 & µV48-Triple Output Models
1.0
Tc=100°C
0.5
Tc=100°C
1.0
Tc=25°C
0.5
Tc=70°C
0.0
0.0
30
36
42
48
54
60
66
72
78
AUXILIARY OUTPUT POWER, WATTS
84
90
30
36
42
48
54
60
66
72
78
84
90
AUXILIARY OUTPUT POWER, WATTS
RO Associates, Inc. • Sunnyvale, CA • 408 744-1450 • Fax: 408 744-1521 • email: [email protected]
19