Datasheet
Table Of Contents
- FEATURES
- APPLICATIONS
- DESCRIPTION
- DATASHEET TABLE OF CONTENTS
- ENVIRONMENTAL AND ABSOLUTE MAXIMUM RATINGS
- ELECTRICAL CHARACTERISTICS
- TYPICAL CHARACTERISTICSThe electrical characteristic data has been developed from actual products tested at 25C. This data is considered typical for the converter. Applies to , , and .The temperature derating curves represent the conditions at which internal components are at or below the manufacturer's maximum operating temperatures. Derating limits apply to modules soldered directly to a 100 mm 100 mm double-sided PCB with 2 oz. copper. Applies to and .
- APPLICATION INFORMATION
- Tape & Reel and Tray Drawings
PTH05T210W
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...................................................................................................................................................... SLTS263I – AUGUST 2007 – REVISED MARCH 2009
Table 3. Input/Output Capacitors (continued)
Capacitor Characteristics Quantity
Max Output Bus
Max.
Capacitor Vendor,
Ripple
Working Value ESR Physical Input
Type Series (Style)
TurboTrans
Current at Vendor Part No.
No
Voltage ( µ F) at 100 Size (mm) Bus
(Cap
85 ° C
TurboTrans
kHz
Type)
(2)
(Irms)
Sanyo
TPE, Poscap (SMD) 6.3 V 470 0.018 Ω 3500 mA 7,3 × 4,3 N/R
(9)
≥ 1 ~ ≤ 3 C ≥ 1
(10)
6TPE470MI
TPE Poscap(SMD) 2.5 V 470 0.007 Ω 4400 mA 7,3 × 4,3 N/R
(9)
≥ 1 ≤ 2 B ≥ 2
(10)
2R5TPE470M7(V
O
≤ 1.8 V)
(11)
TPD Poscap (SMD) 2.5 V 1000 0.005 Ω 6100 mA 7,3 × 4,3 N/R
(9)
≤ 1 B ≥ 1
(10)
2R5TPD1000M5(V
O
≤ 1.8 V)
(11)
SA, Os-Con (Radial) 16 V 470 0.020 Ω > 6080 mA 16 × 23 2
(12)
≥ 1 ~ ≤ 4 N/R
(13)
16SA470M
SP Oscon ( Radial) 10 V 470 0.015 > 4500 mA 10 × 11,5 2
(12)
≥ 1 ~ ≤ 3 C ≥ 2
(10)
10SP470M
SEPC, Os-Con (Radial) 6.3 V 1500 0.010 Ω > 5500 mA 10 × 13 1 ≥ 1 ~ ≤ 2 B ≥ 1
(10)
6SEPC1500M
SVPA, Os-Con (SMD) 6.3 V 470 0.020 Ω 4700mA 10 × 10,3 2
(12)
≥ 1 ~ ≤ 4
(14)
C ≥ 1
(10) (14)
6SVPA470M
AVX, Tantalum, Series III 6.3 V 680 0.035 Ω > 2400 mA 7,3 L N/R
(9)
≥ 2 ~ ≤ 7
(14)
N/R
(13)
TPSE477M010R0045
TPM Multianode 6.3 V 470 0.018 Ω > 3800 mA × 4,3 W N/R
(9)
≥ 2 ~ ≤ 3
(14)
C ≥ 2
(10) (14)
TPME687M006#0018
× 4,1 H
TPS Series III (SMD) 4 V 1000 0.035 Ω 2405 7,3 L × 5,7 N/R
(9)
≥ 2 ~ ≤ 7
(14)
N/R
(13)
TPSV108K004R0035
W (V
O
≤ 2.2 V)
(11)
Kemet, Poly-Tantalum 6.3 V 470 0.018 Ω 2700 mA 4,3 W N/R
(9)
≥ 1 ~ ≤ 3
(14)
C ≥ 2
(10)
T520X477M06ASE018
T520 (SMD) 6.3 V 470 0.010 Ω > 5200 mA × 7,3 L N/R
(9)
≥ 1 ~ ≤ 2 B ≥ 1
(10)
T530X477M006ASE010
T530 (SMD) 6.3 V 470 0.005 Ω 7300 mA × 4 H 2
(12)
≤ 1 B ≥ 1
(10)
T530X477M006ASE005
T530 (SMD) 2.5 V 1000 0.005 Ω 7300 mA 4,3 w × 2
(12)
≤ 1 B ≥ 1
(10)
T530X108M2R5ASE005
7,3 L (V
O
≤ 2.0 V)
(11)
Vishay-Sprague
594D, Tantalum (SMD) 6.3 V 1000 0.030 Ω 2890 mA 7,2L × 5,7 N/R
(9)
≥ 1 ~ ≤ 6 N/R
(13)
594D108X06R3R2TR2T
W × 4,1H
94SA, Os-con (Radial) 16 V 1000 0.015 Ω 9740 mA 16 × 25 1 ≥ 1 ~ ≤ 3 N/R
(13)
94SA108X0016HBP
94SVP Os-Con(SMD) 16 V 330 0.017 Ω > 4500 mA 10 × 12,7 2 ≥ 2 ~ ≤ 3 C ≥ 1
(10)
94SVP827X06R3F12
Kemet, Ceramic X5R 16 V 10 0.002 Ω – 3225 1
(15)
≥ 1
(16)
A
(10)
C1210C106M4PAC
(SMD)
6.3 V 47 0.002 Ω N/R
(9)
≥ 1
(16)
A
(10)
C1210C476K9PAC
Murata, Ceramic X5R 6.3 V 100 0.002 Ω – 3225 N/R
(9)
≥ 1
(16)
A
(10)
GRM32ER60J107M
(SMD)
6.3 V 47 N/R
(9)
≥ 1
(16)
A
(10)
GRM32ER60J476M
25 V 22 1
(15)
≥ 1
(16)
A
(10)
GRM32ER61E226K
16 V 10 1
(15)
≥ 1
(16)
A
(10)
GRM32DR61C106K
TDK, Ceramic X5R (SMD) 6.3 V 100 0.002 Ω – 3225 N/R
(9)
≥ 1
(16)
A
(10)
C3225X5R0J107MT
6.3 V 47 N/R
(9)
≥ 1
(16)
A
(10)
C3225X5R0J476MT
16 V 10 1
(15)
≥ 1
(16)
A
(10)
C3225X5R1C106MT0
16 V 22 1
(15)
≥ 1
(16)
A
(10)
C3225X5R1C226MT
(9) N/R – Not recommended. The voltage rating does not meet the minimum operating limits.
(10) Required capacitors with TurboTrans. See the TransTrans Application information for Capacitor Selection
Capacitor Type Groups by ESR (Equivalent Series Resistance) :
a. Type A = (100 < capacitance × ESR ≤ 1000)
b. Type B = (1,000 < capacitance × ESR ≤ 5,000)
c. Type C = (5,001 < capacitance × ESR ≤ 10,000)
(11) The voltage rating of this capacitor only allows it to be used for output voltage that is equal to or less than 80% of the working voltage.
(12) The minimum capactiance on the input bus can be less than 1000 µ F when using this type of capacitor. Insure that the minimum rms
ripple current rating is met.
(13) Aluminum Electrolytic capacitor not recommended for the TurboTrans due to higher ESR × capacitance products. Aluminum and higher
ESR capacitors can be used in conjunction with lower ESR capacitance.
(14) Total bulk nonceramic capacitors on the output bus with ESR of ≥ 15m Ω to ≤ 30m Ω requires an additional ≥ 200 µ F of ceramic
capacitor.
(15) In addition to the required input capacitance , ceramic capacitors can be added to attenuate high-frequency reflected ripple current.
(16) Maximum ceramic capacitance on the output bus is ≤ 3000 µ F. Any combination of the ceramic capacitor values is limited to 3000 µ F
for non-TurboTrans applications. The total capacitance is limited to 14,000 µ F which includes all ceramic and non-ceramic types.
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