RSG DOH10-05TA-P Non-isolated point of load dc/dc converter Datasheet

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FEATURES
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• OUTPUT CURRENT UP TO 10A
• SMALL SIZE AND LOW PROFILE :
1.30” X 0.53” X 0.30” (SMD) ; 2.00” X 0.50” X 0.28” (SIP)
• HIGH EFFICIENCY - 95% @ 3.3V FULL LOAD
• INPUT RANGE FROM 2.4VDC TO 5.5VDC
• FIXED SWITCHING FREQUENCY (300KHZ)
• SMD & SIP PACKAGES
• OUTPUT VOLTAGE PROGRAMMABLE FROM 0.75VDC TO 3.3VDC
VIA EXTERNAL RESISTOR
• INPUT UNDER-VOLTAGE LOCKOUT
• UL60950-1, EN60950-1 AND IEC60950-1 LICENSED
• ISO9001 CERTIFIED MANUFACTURING FACILITIES
• COMPLIANT TO RoHS EU DIRECTIVE 2002/95/EC
APPLICATIONS
Wireless Network
Telecom/Datacom
Industry Control System
Distributed Power Architectures
Semiconductor Equipment
Microprocessor Power Applications
OPTIONS
Positive Logic Remote on/off
DESCRIPTION
DOS10-05T (SMD type), DOH10-05T (for Vertical Mounting SIP type) and
DOH10-05TA (for Horizontal Mounting SIP type) are non-isolated DC/DC
converters that can deliver up to 10A of output current with full load efficiency of
95% at 3.3V output.
T E C H N I C A L S P E C I F I C AT I O N
All specifications are typical at nominal input, full load and 25ºC otherwise noted
OUTPUT SPECIFICATIONS
INPUT SPECIFICATIONS
Output current
10A max.
Voltage accuracy
Full load and Vin(nom.)
± 2%Vo(set)
Minimum load
Line regulation
0%
Vin=Vo(set)+0.5V to Vin(max.)
at Full Load
Load regulation
No Load
± 0.4%Vo(set),typ.
15mVrms,max.
50mVp-p,max.
±0.4%, typ.
to Full Load
Ripple and noise (Note2) 20MHz bandwidth
Temperature coefficient
ΔIo /Δt = 2.5A/μS ,Vin(nom.)
Dynamic load
Load change step
response
(50% to 100% or
(Note 2)
100% to 50% of Io(max.))
ΔIo /Δt = 2.5A/μS ,Vin(nom.)
Dynamic load
Load change step
response
(50% to 100% or
(Note 3)
100% to 50% of Io(max.)
Output current limit
Output short-circuit current
External load capacitance
Peak deviation
Setting time
(Vo<10%peak
deviation)
Peak deviation
Setting time
(Vo<10%peak
deviation)
200mV,typ.
25μS,typ.
100mV,typ.
100μS,typ.
200%,typ.
Hiccup, automatics recovery
ESR≧1mΩ
ESR≧10mΩ
1000μF,max.
5000μF,max.
Output voltage overshoot-startup Vin=2.4~5.5V, F.L.
Voltage adjustability (see fig.1)
± 0.3%Vo(set),typ.
(Note 4)
1%Vo(set)
0.7525V ~ 3.63V
GENERAL SPECIFICATIONS
Efficiency
See table
Isolation voltage
None
Switching frequency
300KHz, typ.
Approvals and standard
IEC60950-1, UL60950-1, EN60950-1
SMD
Dimensions
SIP
1.30 X 0.53 X 0.30 Inch
(33.0 X 13.5 X 7.7 mm)
2.00 X 0.50 X 0.28 Inch
(50.8 X 12.7 X 7.2 mm)
Weight
MTBF (Note 1)
BELLCORE TR-NWT-000332
MIL-HDBK-217F
6.0g(0.22oz)
7
1.428 x 10 hrs
6
1.007 x 10 hrs
Input voltage range
Vo(set) < Vin – 0.5V
Maximum input current
Vin=2.4 to 5.5V; Io=Io(max.)
2.4 – 5.5VDC
10A
Input filter (Note 5)
C filter
Input no load current
(Vin=5V, Io=0, module enabled)
Input under voltage lockout
Input reflected ripple
current
Vo(set) =0.75Vdc
Vo(set) =3.3Vdc
Start-up voltage
Shutdown voltage
100mA,typ.
130mA,typ.
2.2V,typ.
2.0V,typ.
5~20MHz, 1μH source impedance
100mAp-p
ENVIRONMENTAL SPECIFICATIONS
Operating ambient temperature
–40ºC ~ +85ºC(with derating)
Storage temperature range
Thermal shock
–55ºC ~ +125ºC
MIL-STD-810F
Over temperature protection
125ºC,typ.
FEATURE SPECIFICATIONS
Remote ON/OFF(Note 6)
(Negative logic)(standard)
ON = 0V < Vr < 0.3V
OFF =1.5V < Vr < Vin(max)
(Positive logic)(option)
ON = Vin(max)
OFF=0V < Vr < 0.3V
Input current of Remote control pin
Remote off state input current Nominal Vin
Remote sense range
Rise time
0.5V,max.
Time for Vo to rise from 10% to 90%of Vo(set)
Turn-on delay time
IIN=10μA,max.
IIN=1mA,max.
IIN=10μA,max.
IIN=1mA,max.
10μA~1.0mA
1.5mA,typ.
Case 1 (Note7)
Case 2 (Note8)
6ms,max.
1ms,typ.
1ms,typ.
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Model Name
ON/OFF
Logic
DOS10-05T
DOS10-05T-P
DOH10-05T
DOH10-05T-P
DOH10-05TA
DOH10-05TA-P
Negative
Positive
Negative
Positive
Negative
Positive
Package
Input Voltage
Output Voltage
Output Current
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Efficiency (%)
Min. Load
Max. Load
5.0Vin, 3.3Vdc@10A
0A
10A
95%
SMD
2.4 ~ 5.5Vdc
Vertical Mounting
Vin(min.)=Vo(set)+0.5V
SIP
Horizontal Mounting
SIP
0.75 ~ 3.3Vdc
Note
1. BELLCORE TR-NWT-000332. Case 1: 50% Stress, Temperature at 40ºC.
MIL-HDBK-217F Notice2 @Ta=25 ºC, Full load(Ground, Benign, controlled environment).
2. External with Cout = 1μF ceramic//10μF tantalum capacitors.
3. External with Cout = 2×150μF polymer capacitors.
4. Output voltage programmable from 0.75V to 3.3V by connecting a single resistor (shown as Rtrim in Table 1) between the TRIM and GND pins of the
module.To calculate the value of the resistor Rtrim for a particular output voltage Vo, use the following equation:
Rtrim =
[
21070
Vo – 0.7525
-5110
]Ω
5.
It’s necessary to equip the external input capacitors at the input of the module. The capacitors should connect as close as possible to the input
terminals that ensuring module stability. The external Cin is 3×150μF low-ESR polymer capacitors // 2×47μF ceramic capacitors at least.
6. Device code with suffix “-P” – Positive logic(On/Off is open collector/drain logic input; Signal referenced to GND )
Device code with no suffix – Negative logic (On/Off pin is open collector/drain logic input with external pull –up resistor; signal referenced to GND)
7. Case 1 :On/Off input is set to logic low (module on) and then input power is applied (delay from instant at which Vin=Vin(min) until Vo=10% of Vo(set))
8. Case 2 :Input power is applied for at least one second and then the On/Off input is set to logic low (delay form instant at which Von/off=0.3V until
Vo=10% of Vo(set))
CAUTION: This power module is not internally fused. An input line fuse must always be used.
DOS10-05T, Vo=3.3V, Derating Curve
OUTPUT CURRENT,Io(A)
12
10
8
6
4
2
0
20
30
40
50
60
70
80
Fig. 1
90
AMBIENT TEMPERATURE,TA(℃)
Table 1
Vo(set) (V)
Rtrim (KΩ)
0.7525
Open
1.2
41.973
1.5
23.077
1.8
15.004
2.5
6.974
3.3
3.160
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DOH10-05T
VOUT
VOUT
VOUT
+SENSE
GND
GND
VIN
VIN
TRIM
ON/OFF
BOTTOM VIEW
SIDE VIEW
DOH10-05TA
VOUT
VOUT
+SENSE
GND
VOUT
GND
VIN
VIN
TRIM
ON/OFF
BOTTOM VIEW
SIDE VIEW
DOS10-05T
BOTTOM VIEW
SIDE VIEW
1. All dimensions in Inches (mm)
Tolerance: X.XX±0.02 (X.X±0.5)
X.XXX±0.01 (X.XX±0.25)
2. Pin pitch tolerance ±0.01(0.25)
3. Pin dimension tolerance ±0.004 (0.1)
Last update:2008/6/4
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