Wide output voltage trim (0.9 Vdc to 5.0 Vdc, 6 A max.)
Power good output signal (open collector)
Input undervoltage lockout
Current sink capabilities for termination applications
Operating ambient temperature up to 80 ĀŗC with suitable derating and forced air cooling
Remote ON/OFF
No minimum load requirement
Non-latching over-current protection
Compact footprint, vertical and horizontal options
5Vand 12 V input options
Available RoHS compliant
SIL06C SERIES
Single Output
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
1
[ 2 YEAR WARRANTY ]
The SIL06C is a new high density open
frame non-isolated converter series for
space sensitive applications. Each model
has a wide input range (4.5 Vdc to 5.5 Vdc
or 10.2 Vdc to 13.8 Vdc) and offer a wide
0.9 Vdc to 5 Vdc output voltage range
with a 6 A load. An external resistor
adjusts the output voltage from its pre-set
value of 0.9 V to any value up to the 5 V
maximum. Typical efficiencies for the
models are 89% for the 5 V input version
and 91% for the 12 V input version.
The SIL06C series offers remote ON/OFF
and over-current protection as standard.
With full international safety approval
including EN60950 and UL/cUL60950, the
SIL06C reduces compliance costs and
time to market.
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
2
All specifications are typical at nominal input Vin = 12Vand 5V, full load under any resistive load combination at 25ĖCunless otherwise stated.
Turn On/Off
Characteristic Symbol Min Typ Max Units Notes and Conditions
Input voltage - operating (5V) Vin (oper) 4.5 5.5 VDC
(12V) Vin (oper) 10.2 13.8 V DC
Input current - no load (5V) lin 20 120 mADC Vin (min) - Vin (max),enabled
(12) 50
Input current - Quiescent lin (off) 3.5 6.5 mADC Converter disabled
Input voltage variation dv/dt 1.0 V/ms
Product was tested at 1.2V/ms.
Much higher dV/dt is possible
(>10V/ms). Consult factory for
details
Input Characteristics
Characteristic Symbol Min Typ Max Units Notes and Conditions
Input voltage - turnon (5V) Vin (on) 4.4 4.5 4.6 V DC
(12V) Vin (on) 8.7 9.0 9.3 V DC
Input voltage - turn off (5V) Vin (off) 4.2 4.3 4.4 V DC
(12V) Vin (off) 7.2 7.5 7.8 V DC
Turn on delay - enabled, Tdelay 20 msec With the Remote ON/OFF signal
then power applied (power) asserted, this is the time from
when the input voltage reaches
the minimum specified operating
voltage until the Power Good
is asserted high
Turn on delay - power Tdelay 25 msec Vin = Vin (nom),then Remote
applied, then Remote ON/OFF ON/OFF asserted. This is the
asserted (Remote ON/OFF) time taken until the power
good is asserted high.
Output to power good delay Tdelay 8 ms Output voltage in full regulation
(power good) to power good asserted high.
Rise time (5V) Trise 10 msec From 10% to 90%; full resistive
Rise time (12V) 5 load, 680ĀµF capacitance
Stresses in excess of the maximum ratings can cause permanent damage to the device. Operation of the device is not implied at these or any
other conditions in excess of those given in the specification. Exposure to absolute maximum ratings can adversely affect device reliability.
Characteristic Symbol Min Typ Max Units Notes and Conditions
Input voltage - continuous Vin (cont) -0.3 13.8 V DC Vin(+) - Vin(-)
Operating temperature Top 0 50 ĀŗC Measured at thermal reference
points, see Note 1. Higher
ambient operation possible with
forced air cooling. See de-rating
curves
Storage temperature Tstorage -40 125 ĀŗC
Output current Iout (max) 6 A
Absolute Maximum Ratings
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SIL06CC Series | 6 A DC-DC Converter
C Class Non-Isolated
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Characteristic - Signal Name Symbol Min Typ Max Units Notes and Conditions
At remote/control ON/OFF pin See Notes 2 and 3
See Application Note 131 for
Remote On/Off details
Control pin open circuit voltage Vih 2.27 2.5 V Iih = 0 ĀµA; open circuit voltage
High level input current Iih 1.0 ĀµA Current flowing into control pin
when pin is pulled high
(max. at Vih =13.8V)
High level input voltage Vih 2.4 V Converter guaranteed on when
control pin is greater than
Vih (min)
Low level input voltage ViI 0.8 V Converter guaranteed off
when control pin is
less than Vil (max)
Low level input current (5V) Iil (max) 133 ĀµA ViI =0.0 V;
(12V) 500 ĀµA
Characteristic Symbol Min Typ Max Units Notes and Conditions
Mean time between failure MTBF 1,307,257 Hours MIL-HDBK-217F,
Vin = Vin (nom); Iout = Iout
(max);ambient 40ĀŗC;
ground benign environment
Mean time between failure MTBF 7,562,142 Hours Telcordia SR-332
Issue 3, ground benign,
temp. = 40ĀŗC, Vin = Vin (nom),
Iout = Iout (max)
Signal Electrical Interface
Reliability and Service Life
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
4
Other Specifications
Characteristic Symbol Min Typ Max Units Notes and Conditions
Switching frequency Fsw 200 kHz Fixed frequency
Weight 9.3 g
Environmental Specifications
Characteristic Symbol Min Typ Max Units Notes and Conditions
Thermal performance 0 50 ĀŗC See Notes 1, 4 and
individual derating curves
Type Parameter Reference Test Level Notes and Conditions
Air temperatureoperating 10ĀŗC to 50ĀŗC
Max. rate of change is 30 degrees
Air temperature non-operating -40ĀŗC to 120ĀŗC per hour while operating and
20 degrees per hour while
non-operating
Relative humidity - operating
80% With non-condensing
Relative humidity - non-operating
100% Excluding rain during parts
shipment
Vibration - operating Sinusoidal vibration, 0.5G
(0 to peak) acceleration.
See Note 5
Vibration - non-operating Sinusoidal vibration, 1.0G
(0 to peak). See Note 5
Shock Acceleration
Non-operating squarewave 40G, squarewave at 200in/sec
(508cm/sec); on all six sides
Non-operating half sine Half sine pulse for 70in/sec
(178cm/sec) for 2ms; on all
sides except top)
Operating half sine Half sine pulse for 40in/sec
(102cm/sec) for 2ms; on all
sides except top
Characteristic Altitude Percentage Derating
Altitude Derating 3000m 20%
(9,843 ft) Altitude is defined as height
10000m 50% above sea level
(32,808 ft)
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SIL06CC Series | 6 A DC-DC Converter
C Class Non-Isolated
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Material Ratings
Characteristic - Signal Name Notes and Conditions
Flammability rating UL94V-0
Material type FR4 PCB
Performance criteria:
NP: Normal Performance: EUT shall withstand applied test and operate within relevant limits as specified without damage.
RP: Reduced Performance: EUT shall withstand applied test. Reduced performance is permitted within specified limits, resumption to
normal performance shall occur at the cessation of the test.
LFS: Loss of Function (self recovery): EUT shall withstand applied test without damage, temporary loss of function permitted during test.
Unit will self recover to normal performance after test.
Safety Agency Approvals
Characteristic
UL/cUL UL/cUL 60950
TUV Product Service IEC 60950
Model Input Output Output Current Typical Max. Load
Number Voltage Voltage (Max.) Efficiency Regulation
SIL06C-05SADJ-VJ 5VDC 0.9V - 3.3V 6A 89% Ā±0.5%
SIL06C-05SADJ-HJ 5VDC 0.9V - 3.3V 6A 89% Ā±0.5%
SIL06C-12SADJ-VJ 12VDC 0.9V - 5V 6A 91% Ā±0.5%
SIL06C-12SADJ-HJ 12VDC 0.9V - 5V 6A 91% Ā±0.5%
Model Numbers
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
RoHS Compliance Ordering Information
The āJā at the end of the part number
indicates that the part is Pb-free
(RoHS 6/6 compliant). TSE RoHS 5/6
(non Pb-free) compliant versions may
be available on special request, please
contact your local sales representative
for details.
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
6
Input Characteristics
5V and 12V Model 0.9V Setpoint
Electrical Characteristics - O/P
5V and 12V Model 0.9V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Nominal set-point voltage Vo (nom) 0.8775 0.9 0.9225 V DC Vin = Vin (nom); Iout = Iout (nom)
Line regulation Ā±0.2 % Iout = Iout (nom); Vin (min)
to Vin (max)
Load regulation Ā±0.5 % Vin = Vin (nom); Iout (min) to
Iout (max)
Output current continuous Iout 0 Ā±6.0 A DC Minus indicates Sink Mode
Output current - short circuit
(5V) Isc 1Continuous, unit auto recovers
(12V) 1.1
Output voltage - noise
(5V) 0.9V Vp-p 30 mV pk-pk
Measurement bandwidth 20 MHz
Vrms 15 mV rms See Application Note 131 for
(12V) 0.9V Vp-p 40 mV pk-pk details
Vrms 20 mV rms
Characteristic Symbol Min Typ Max Units Notes and Conditions
Input current - operating
(Source) (5V) Iin 1.500 A DC Vin = Vin (nom); Iout = Iout
(Sink) (5V) Iin -0.645 A DC (max.); Vo= Vo(nom)
(Source) (12V) Iin 0.650 A DC Vin = Vin (nom); Iout = Iout
(Sink) (12V) Iin -0.285 A DC (max.); Vo= Vo(nom)
Reflected ripple current (5V) Iin (ripple) 10.0 mA RMS Iout = Iout (max.),measured
(5V) 51.0 mA pk-pk with external filter. See
(12V) 7.0 mA RMS Application Note 131 for details
(12V) 48.0 mA pk-pk
Input capacitance - internal Cinput 1.0 ĀµF
filter
Input capacitance - Cbypass 270 ĀµF Recommended customer
external input added capacitance.
Maximum ESR = 20mā¦
See Application Note 131 for
ripple current requirements
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C Class Non-Isolated
Protection and Control Features
5V and 12V Model 0.9V Setpoint
Efficiency
5V and 12V Model 0.9V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Efficiency 5V (source mode) Ī·70 72 % Iout =100% Iout (max),
5V (sink mode) 58 60 Vin = Vin (nom)
Efficiency 12V (source mode) Ī·68 70 %
12V (sink mode) 60 62
Efficiency 5V (source mode) Ī·78 80 % Iout =50% Iout (max),
5V (sink mode) 72 74 Vin = Vin (nom)
Efficiency 12V (source mode) Ī·72 74 %
12V (sink mode) 68 70
Characteristic Symbol Min Typ Max Units Notes and Conditions
Overcurrent limit inception (5V) Ioc 8.95 A DC Vo=90% of Vo(nom)
(12V) Ioc 9.95 A DC
Electrical Characteristics - O/P
5V and 12V Model 0.9V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Load transient response - Vdynamic 75 mV Peak deviation for 50% to 75%
peak deviation step load, di/dt = 10A/Āµsec
Load transient response - Trecovery 150 Āµsec Settling time to within 1% of
recovery output set point voltage for 50%
to 75% step load
External load capacitance (5V) Cext 680 11,500 ĀµF Max ESR = 12mā¦
(12V) 6,080 See Application Note 131 for
output capitance values vs.
stability
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
8
5V Model 1.8V Setpoint
Electrical Characteristics - O/P
5V Model 1.8V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Nominal set-point voltage Vo(nom.) 1.755 1.800 1.845 VDC Vin = Vin (nom); Iout = Iout (nom)
Line regulation Ā±0.2 % Iout = Iout (nom);
Vin (min) to Vin (max)
Load regulation Ā±0.5 % Vin = Vin (nom);
Iout (min) to Iout (max)
Output current continuous Iout 0 Ā±6 ADC
Output current - short circuit Isc 1ARMS Continuous, unit auto recovers
Output voltage - noise Vp-p 30 mV pk-pk
Measurement bandwidth 20 MHz
Vrms 15 mV rms See Application Note 131 for
set-up details
Input Characteristics
Characteristic Symbol Min Typ Max Units Notes and Conditions
Input current -
operating (Source)
Iin 2.62 A DC Vin = Vin (nom); Iout = Iout
(Sink) -1.73 (max.); Vo= Vo(nom)
Reflected ripple current Iin (ripple) 11.8 mA RMS Iout = Iout (max.),measured
55 mA pk-pk with external filter. See
Application Note 131 for details
Input capacitance - Cinput 1 ĀµF Internal to converter
internal filter
Input capacitance - Cbypass 270 ĀµF Recommended customer
external bypass added capacitance.
Maximum ESR = 20mā¦
See Application Note 131 for
ripple current requirements
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
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C Class Non-Isolated
Protection and Control Features
5V Model 1.8V Setpoint
Efficiency
5V Model 1.8V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Efficiency (source) Ī·81.4 83.4 % Iout =100% Iout (max),
(sink) 77.6 79.6 Vin = Vin (nom)
Efficiency (source) Ī·85.9 87.9 % Iout =50% Iout (max),
(sink) 83.6 85.6 Vin = Vin (nom)
5V Model 1.8V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Overcurrent limit inception Ioc 8.75 A DC Vo=90% of Vo(nom)
Electrical Characteristics - O/P
Characteristic Symbol Min Typ Max Units Notes and Conditions
Load transient response - Vdynamic 75 mV Peak deviation for 50% to 75%
peak deviation step load, di/dt = 10A/Āµsec
Load transient response - Trecovery 150 Āµsec Settling time to within 1% of
recovery output set point voltage for 50%
to 75% step load
External load capacitance (5V) Cext 680 11,500 ĀµF Max ESR = 12mā¦
See Application Note 131 for
output capitance values vs.
stability
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
10
Electrical Characteristics - O/P
5V Model 3.3V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Nominal set-point voltage Vo(nom.) 3.218 3.300 3.383 VDC Vin = Vin (nom); Iout = Iout (nom)
Line regulation Ā±0.2 % Iout = Iout (nom);
Vin (min) to Vin (max)
Load regulation Ā±0.5 % Vin = Vin (nom);
Iout (min) to Iout (max)
Output current continuous Iout 0 6 ADC
Output current - short circuit Isc 1ARMS Continuous, unit auto recovers
from short
Output voltage - noise Vp-p 40 mV pk-pk
Measurement bandwidth 20 MHz
Vrms 15 mV rms See Application Note 131 for
set-up details
5V Model 3.3V Setpoint
Input Characteristics
Characteristic Symbol Min Typ Max Units Notes and Conditions
Input current - operating Iin 4.42 A DC Vin = Vin (nom); Iout = Iout
(max.); Vo= Vo(nom)
Reflected ripple current Iin (ripple) 11.3 mA RMS Iout = Iout (max.),measured
52 mA pk-pk with external filter. See
Application Note 131 for details
Input capacitance - Cinput 1 ĀµF Internal to converter
internal filter
Input capacitance - Cbypass 270 ĀµF Recommended customer
external bypass added capacitance.
Maximum ESR = 20mā¦
See Application Note 131 for
ripple current requirements
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SIL06C Series | 6 A DC-DC Converter
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C Class Non-Isolated
Protection and Control Features
5V Model 3.3V Setpoint
Efficiency
5V Model 3.3V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Efficiency (source) Ī·87.9 89.9 % Iout =100% Iout (max),
Vin = Vin (nom)
Efficiency (source) Ī·90.8 92.8 % Iout =50% Iout (max),
Vin = Vin (nom)
5V Model 3.3V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Overcurrent limit inception Ioc 8.3 A DC Vo=90% of Vo(nom)
Electrical Characteristics - O/P
Characteristic Symbol Min Typ Max Units Notes and Conditions
Load transient response - Vdynamic 75 mV Peak deviation for 50% to 75%
peak deviation step load, di/dt = 10A/Āµsec
Load transient response - Trecovery 150 Āµsec Settling time to within 1% of
recovery output set point voltage for 50%
to 75% step load
External load capacitance (5V) Cext 680 10,500 ĀµF Max ESR = 12mā¦
See Application Note 131 for
output capitance values vs.
stability
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
12
Electrical Characteristics - O/P
12V Model 2.5V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Nominal set-point voltage Vo(nom.) 2.438 2.500 2.563 VDC Vin = Vin (nom); Iout = Iout (nom)
Line regulation Ā±0.2 % Iout = Iout (nom);
Vin (min) to Vin (max)
Load regulation Ā±0.5 % Vin = Vin (nom);
Iout (min) to Iout (max)
Output current continuous Iout 0 Ā±6 ADC
Output current - short circuit Isc 1.1 ARMS Continuous, unit auto recovers
from short
Output voltage - noise Vp-p 40 mV pk-pk
Measurement bandwidth 20 MHz
Vrms 20 mV rms See Application Note 131 for
set-up details
12V Model 2.5V Setpoint
Input Characteristics
Characteristic Symbol Min Typ Max Units Notes and Conditions
Input current - operating (source) Iin 1.48 A DC Vin = Vin (nom); Iout = Iout
(sink) -1.04 (max.); Vo= Vo(nom)
Reflected ripple current Iin (ripple) 9.6 mA RMS Iout = Iout (max.),measured
44.8 mA pk-pk with external filter. See
Application Note 131 for details
Input capacitance - Cinput 1 ĀµF Internal to converter
internal filter
Input capacitance - Cbypass 270 ĀµF Recommended customer
external bypass added capacitance.
Maximum ESR = 20mā¦
See Application Note 131 for
ripple current requirements
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SIL06C Series | 6 A DC-DC Converter
13 www.artesyn.com
C Class Non-Isolated
Protection and Control Features
12V Model 2.5V Setpoint
Efficiency
12V Model 2.5V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Efficiency (source) Ī·82.7 84.7 % Iout =100% Iout (max),
(sink) 80.2 82.2 Vin = Vin (nom)
Efficiency (source) Ī·83.8 85.8 % Iout =50% Iout (max),
(sink) 81.8 83.8 Vin = Vin (nom)
12V Model 2.5V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Overcurrent limit inception Ioc 9.52 A DC Vo=90% of Vo(nom)
Electrical Characteristics - O/P
Characteristic Symbol Min Typ Max Units Notes and Conditions
Load transient response - Vdynamic 75 mV Peak deviation for 50% to 75%
peak deviation step load, di/dt = 10A/Āµsec
Load transient response - Trecovery 150 Āµsec Settling time to within 1% of
recovery output set point voltage for 50%
to 75% step load
External load capacitance (5V) Cext 680 5,080 ĀµF Max ESR = 12mā¦
See Application Note 131 for
output capitance values vs.
stability
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
14
Electrical Characteristics - O/P
12V Model 5V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Nominal set-point voltage Vo(nom.) 4.875 5 5.125 VDC Vin = Vin (nom); Iout = Iout (nom)
Line regulation Ā±0.2 % Iout = Iout (nom);
Vin (min) to Vin (max)
Load regulation Ā±0.5 % Vin = Vin (nom);
Iout (min) to Iout (max)
Output current continuous Iout 0 6 ADC
Output current - short circuit Isc 1.1 ARMS Continuous, unit auto recovers
from short
Output voltage - noise Vp-p 50 mV pk-pk
Measurement bandwidth 20 MHz
Vrms 25 mV rms See Application Note 131 for
set-up details
12V Model 5V Setpoint
Input Characteristics
Characteristic Symbol Min Typ Max Units Notes and Conditions
Input current - operating Iin 2.77 A DC Vin = Vin (nom); Iout = Iout
(max.); Vo= Vo(nom)
Reflected ripple current Iin (ripple) 11.8 mA RMS Iout = Iout (max.),measured
56.4 mA pk-pk with external filter. See
Application Note 131 for details
Input capacitance - Cinput 1 ĀµF Internal to converter
internal filter
Input capacitance - Cbypass 270 ĀµF Recommended customer
external bypass added capacitance.
Maximum ESR = 20mā¦
See Application Note 131 for
ripple current requirements
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
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C Class Non-Isolated
Protection and Control Features
12V Model 5V Setpoint
Efficiency
12V Model 5V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Efficiency (source) Ī·88.9 90.9 % Iout =100% Iout (max),
Vin = Vin (nom)
Efficiency (source) Ī·88.9 90.9 % Iout =50% Iout (max),
Vin = Vin (nom)
12V Model 5V Setpoint
Characteristic Symbol Min Typ Max Units Notes and Conditions
Overcurrent limit inception Ioc 9.27 A DC Vo=90% of Vo(nom)
Electrical Characteristics - O/P
Characteristic Symbol Min Typ Max Units Notes and Conditions
Load transient response - Vdynamic 75 mV Peak deviation for 50% to 75%
peak deviation step load, di/dt = 10A/Āµsec
Load transient response - Trecovery 150 Āµsec Settling time to within 1% of
recovery output set point voltage for 50%
to 75% step load
External load capacitance (5V) Cext 680 3,880 ĀµF Max ESR = 12mā¦
See Application Note 131 for
output capitance values vs.
stability
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
16
5V Model 0.9V Setpoint
010 20 30 40 50 60 70 80
0
1
2
3
4
5
6
OUTPUT CURRENT (A)
AMBIENT TEMPERATURE (ĀŗC)
0 m/s (0 LFM)
0.25 m/s (50 LFM)
0.5 m/s (100 LFM)
0.75 m/s (150 LFM)
1m/s (200 LFM)
12 3 4 5 6
71
73
75
77
79
81
83
85
EFFICIENCY (%)
OUTPUT CURRENT (A)
Vin = 4.5V
Vin = 5V
Vin = 5.5V
12 3 4 5 6
58
63
68
73
78
EFFICIENCY (%)
OUTPUT CURRENT (A)
Vin = 4.5V
Vin = 5V
Vin = 5.5V
Figure 1: Thermal De-rating Curve Figure 2: Efficiency when Sourcing
Figure 3: Efficiency when Sinking Figure 4: Short Circuit Characteristic
(Channel 1: Output Current at 5A/div, Channel 4: Output Voltage)
Figure 5: Transient Response 50-75% (Sinking)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 6: Transient Response 75-50% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
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C Class Non-Isolated
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5V Model 0.9V Setpoint
Figure 7: Transient Response 50 - 75% (Sinking)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 9: Typical Power Up
(Channel 2: DC Input, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 8: Transient Response 75 - 50% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 10: Control On/Off
(Channel 2: Remote ON/OFF, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 11: Typical Ripple and Noise
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
18
5V Model 1.8V Setpoint
0m/s (0 LFM)
0.25 m/s (50 LFM)
0.5 m/s (100 LFM)
0.75 m/s (150 LFM)
1 m/s (200 LFM)
010 20 30 40 50 60 70 80
0
1
2
3
4
5
6
OUTPUT CURRENT (A)
AMBIENT TEMPERATURE (ĀŗC)
12 3 4 5 6
83
84
85
86
87
88
89
90
EFFICIENCY (%)
OUTPUT CURRENT (A)
Vin = 4.5V
Vin = 5V
Vin = 5.5V
12 3 4 5 6
78
79
80
81
82
83
84
85
86
87
EFFICIENCY (%)
OUTPUT CURRENT (A)
Vin = 4.5V
Vin = 5V
Vin = 5.5V
Figure 12: Thermal De-rating Curve Figure 13: Efficiency when Sourcing
Figure 14: Efficiency when Sinking Figure 15: Short Circuit Characteristic
(Channel 1: Output Current at 5A/div, Channel 4: Output Voltage)
Figure 16: Transient Response 50-75% (Sinking)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 17: Transient Response 50-75% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
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C Class Non-Isolated
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5VModel 1.8V Setpoint
Figure 18: Transient Response 75 - 50% (Sinking)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 20: Typical Power Up
(Channel 2: DC Input, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 19: Transient Response 75 - 50% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 21: Control On/Off
(Channel 2: Remote ON/OFF, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 22: Typical Ripple and Noise
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
20
5V Model 3.3V Setpoint
0m/s (0 LFM)
0.25 m/s (50 LFM)
0.5 m/s (100 LFM)
0.75 m/s (150 LFM)
1m/s (200 LFM)
010 20 30 40 50 60 70 80
0
1
2
3
4
5
6
OUTPUT CURRENT (A)
AMBIENT TEMPERATURE (ĀŗC)
12 3 4 5 6
88
89
90
91
92
93
94
95
EFFICIENCY (%)
OUTPUT CURRENT (A)
Vin = 4.5V
Vin = 5V
Vin = 5.5V
Figure 23: Thermal De-rating Curve Figure 24: Efficiency when Sourcing
Figure 25: Short Circuit Characteristic
(Channel 1: Output Current at 5A/div, Channel 4: Output Voltage)
Figure 26: Transient Response 50-75% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 27: Transient Response 75 - 50% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 28: Typical Power Up
(Channel 2: DC Input, Channel 3: Power Good
Channel 4: Output Voltage)
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
21 www.artesyn.com
5V Model 3.3V Setpoint
Figure 29: Control On/Off
(Channel 2: Remote ON/OFF, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 30: Typical Ripple and Noise
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
22
0 m/s (0 LFM)
0.25 m/s (50 LFM)
0.5 m/s (100 LFM)
0.75 m/s (150 LFM)
1.0 m/s (200 LFM)
010 20 30 40 50 60 70 80
0
1
2
3
4
5
6
OUTPUT CURRENT (A)
AMBIENT TEMPERATURE (ĀŗC)
12 3 4 5 6
40
45
50
55
60
65
70
75
Vin = 10.2V
Vin = 12V
Vin = 13.8V
EFFICIENCY (%)
OUTPUT CURRENT (A)
12V Model 0.9V Setpoint
12 3 4 5 6
60
64
68
72
76
80
EFFICIENCY (%)
OUTPUT CURRENT (A)
Vin = 10.2V
Vin = 12V
Vin = 13.8V
Figure 31: Thermal De-rating Curve Figure 32: Efficiency when Sourcing
Figure 33: Efficiency when Sinking Figure 34: Short Circuit Characteristic
(Channel 1: Output Current at 5A/div, Channel 4: Output Voltage)
Figure 35: Transient Response 50-75% (Sinking)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 36: Transient Response 75-50% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
23 www.artesyn.com
12V Model 0.9V Setpoint
Figure 37: Transient Response 50 - 75% (Sinking)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 39: Typical Power Up
(Channel 2: DC Input, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 38: Transient Response 75 - 50% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 40: Control On/Off
(Channel 2: Remote ON/OFF, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 41: Typical Ripple and Noise
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
24
12V Model 2.5V Setpoint
0m/s (0 LFM)
0.25 m/s (50 LFM)
0.5 m/s (100 LFM)
0.75 m/s (150 LFM)
1.0 m/s (200 LFM)
010 20 30 40 50 60 70 80
0
1
2
3
4
5
6
OUTPUT CURRENT (A)
AMBIENT TEMPERATURE (ĀŗC)
12 3 4 5 6
72
74
76
78
80
82
84
86
88
EFFICIENCY (%)
OUTPUT CURRENT (A)
Vin = 10.2V
Vin = 12V
Vin = 13.8V
123456
60
65
70
75
80
85
90
EFFICIENCY (%)
OUTPUT CURRENT (A)
Vin = 10.2V
Vin = 12V
Vin = 13.8V
Figure 42: Thermal De-rating Curve Figure 43: Efficiency when Sourcing
Figure 44: Efficiency when Sinking Figure 45: Short Circuit Characteristic
(Channel 1: Output Current at 5A/div, Channel 4: Output Voltage)
Figure 46: Transient Response 50-75% (Sinking)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 47: Transient Response 50-75% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
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C Class Non-Isolated
25 www.artesyn.com
12V Model 2.5V Setpoint
Figure 48: Transient Response 75 - 50% (Sinking)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 50: Typical Power Up
(Channel 2: DC Input, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 49: Transient Response 75 - 50% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 51: Control On/Off
(Channel 2: Remote ON/OFF, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 52: Typical Ripple and Noise
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
26
12V Model 5V Setpoint
0m/s (0 LFM)
0.25 m/s (50 LFM)
0.5 m/s (100 LFM)
0.75 m/s (150 LFM)
1.0 m/s (200 LFM)
010 20 30 40 50 60 70 80
0
1
2
3
4
5
6
OUTPUT CURRENT (A)
AMBIENT TEMPERATURE (ĀŗC)
12 3 4 5 6
80
82
84
86
88
90
92
94
EFFICIENCY (%)
OUTPUT CURRENT (A)
Vin = 10.2V
Vin = 12V
Vin = 13.8V
Figure 53: Thermal De-rating Curve Figure 54: Efficiency when Sourcing
Figure 55: Short Circuit Characteristic
(Channel 1: Output Current at 5A/div, Channel 4: Output Voltage)
Figure 56: Transient Response 50-75% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 57: Transient Response 75 - 50% (Sourcing)
(Channel 1: Current load step at 1A/div,
Channel 4: Output Voltage deviation)
Figure 58: Typical Power Up
(Channel 2: DC Input, Channel 3: Power Good
Channel 4: Output Voltage)
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
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C Class Non-Isolated
27 www.artesyn.com
12V Model 5V Setpoint
Figure 59: Control On/Off
(Channel 2: Remote ON/OFF, Channel 3: Power Good
Channel 4: Output Voltage)
Figure 60: Typical Ripple and Noise
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
SXA10 Series | 15W
DC/DC
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
28
All dimensions in INCHES (mm)
General tolerance Ā±0.01in (Ā±0.25mm)
except where specified otherwise
0.315
(8.00) max
0.150
(3.81) Ref
0.120
(3.05)
9 Places
0.062
(1.57) PCB Ref
Pin 8
0.950
(24.13)
0.100
(2.54)
5X
0.150
(3.80)
0.015
(0.38)
Pin 1
1.200
(30.48)
0.610
(15.49)
0.040
(1.02)
0.050
(1.27)
0.530
(15.01)
0.527
(13.38)
0.025 Ā±0.001
(0.64) Typ. Ā±0.025
Mechanical
Support Pin
0.025 Ā±0.001
(0.64) Typ. Ā±0.025
Figure 62: Mechanical Drawing - Vertical
All dimensions in inches (mm)
General tolerance Ā±0.01in (Ā±0.25mm)
except where specified otherwise
Pin 1
0.050
(1.27)
1.200
(30.48)
0.040
(1.02) Ref.
0.610
(15.49)
Pin 8
0.100
(2.54)
5X
0.950
(24.13)
0.150
(3.81)
0.025 Ā±0.001
(0.64) Typ. Ā±0.025
0.070
(1.78)
0.315
(8.00) max.
0.150
(3.81)
8 Places
0.062
(1.57) Ref.
0.050
(1.27) Typ.
0.025 Ā±0.001
(0.64) Typ. Ā±0.025
Figure 61: Mechanical Drawing - Horizontal
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
Note 1
Thermal reference points are defined as the highest
temperature measured at any one of the specified thermal
reference point. See Figure 63: Thermal reference point.
Note 2
The control pin is referenced to Vin-
Note 3
The SIL 06C is supplied as standard with active High logic.
Control input pulled low: Unit Disabled
Control input left open: Unit Enabled
Note 4
Thermal reference set up: Unit mounted on an edge card test
board 215mm x 115mm. Test board mounted vertically. For test
details and recommended set-up see Application Note 131.
Note 5
3-200Hz, sweep at 1/2 octave/min from low to high frequency,
and then from high to low. Thirty minute dwell at all resonant
points.
CAUTION: Hazardous internal voltages and high temperatures.
Ensure that unit is accessible only to trained personnel. The user
must provide the recommended fusing in order to comply with
safety approvals.
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
29 www.artesyn.com
Figure64: Pinout Connections
Pin Connections
Figure 63: Thermal reference points
Pin No. Function
1 Vout
2 Trim
3 Ground
4 Power Good
5 Output Enable
6Vin
7 Mechanical Support
8 Mechanical Support
9 Mechanical Support on
Horizontal version only
File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
Longform Datasheet ļ£©Artesyn TechnologiesĀ® 2005
The information and specifications contained in this datasheet are
believed to be correct at time of publication. However, Artesyn
Technologies accepts no responsibility for consequences arising
from printing errors or inaccuracies. Specifications aresubject to
change without notice. No rights under any patent accompany the
sale of any such product(s) or information contained herein.
SIL06C Series | 6 A DC-DC Converter
C Class Non-Isolated
NORTH AMERICA
e-mail: sales.us@artesyn.com
%800 769 7274
%+508 628 5600
EUROPEAN LOCATIONS
e-mail: sales.europe@artesyn.com
IRELAND
%+353 24 93130
AUSTRIA
%+43 1 80150
FAR EAST LOCATIONS
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HONG KONG
%+852 2699 2868
30 www.artesyn.com File Name: lf_sil06c.pdf rev (05): 22 Dec 2005
