Datasheet
PTH08T240W , PTH08T241W
SLTS264J – NOVEMBER 2005 – REVISED JUNE 2009 ...................................................................................................................................................
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Table 3. Input/Output Capacitors (continued)
Capacitor Characteristics Quantity
Max Output Bus
Max. Ripple
Capacitor Vendor,
Working ESR Current
Turbo-
Value Physical Input
Type Series (Style)
No
Voltage at 100 at Vendor Part No.
Trans
( µ F) Size (mm) Bus
Turbo-
(V) kHz 85 ° C
(Cap
Trans
(m Ω ) (Irms)
Type)
(2)
(mA)
Sanyo
TPE, Poscap (SMD) 10 330 25 3000 7,3 × 4,3 N/R
(6)
1 ~ 3 C ≥ 2
(2)
10TPE330MF
TPE Poscap(SMD) 2.5 470 7 4400 7,3 × 4,3 N/R
(6)
1 ~ 2 B ≥ 2
(2)
2R5TPE470M7 (V
O
≤ 1.8V)
(8)
TPD Poscap (SMD) 2.5 1000 5 6100 7,3 × 4,3 N/R
(6)
1 B ≥ 1
(2)
2R5TPD1000M5 (V
O
≤ 1.8V)
(8)
SEP, OS-CON (Radial) 16 330 16 4700 10 × 13 ≥ 1
(3)
1 ~ 3 B ≥ 2
(2)
16SEP330M
SP OS-CON ( Radial) 16 270 18 4400 10 × 11,5 ≥ 1
(3)
1 ~ 3 B ≥ 2
(2)
16SP270M
SEPC, OS-CON (Radial) 16 270 11 5000 8 × 13 ≥ 1
(3)
1 ~ 2 B ≥ 2
(2)
16SEPC270M
SVP, OS-CON (SMD) 16 330 16 4700 10 × 12,6 ≥ 1
(3)
1 ~ 3
(4)
B ≥ 2
(2) (4)
16SVP330M
AVX, Tantalum
Series III 10 330 40 1828 7,3 × 4,3 × 4,1 N/R
(6)
1 ~ 6
(4)
N/R
(5)
TPSE337M010R0040 (V
O
≤ 5.1V)
(7)
TPM Multianode 10 330 23 3000 7,3 × 4,3 × 4,1 N/R
(6)
1 ~ 3
(4)
C ≥ 2
(4) (2)
TPME337M010#0023 (V
O
≤ 5.1V)
(7)
TPS Series III (SMD) 4 1000 35 2405 7,3 × 5,7 N/R
(6)
1 ~ 5
(4)
N/R
(5)
TPSV108K004R0035 (V
O
≤ 2.1V)
(8)
Kemet, Poly-Tantalum
T520 (SMD) 10 330 25 2600 7,3 × 4,3 × 4,1 N/R
(6)
1 ~ 4
(4)
C ≥ 2
(2)
T520X337M010ASE025
T530 (SMD) 6.3 330 15 3800 7,3 × 4,3 × 4,1 N/R
(6)
2 ~ 3 B ≥ 2
(2)
T530X337M006ASE015 (V
O
≤ 5.1V)
(8)
T530 (SMD) 4 680 5 7300 7,3 × 4,3 × 4,1 N/R
(6)
1 B ≥ 1
(2)
T530X687M004ASE005 (V
O
≤ 3.5V)
(8)
T530 (SMD) 2.5 1000 5 7300 7,3 × 4,3 N/R
(6)
1 B ≥ 1
(2)
T530X108M2R5ASE005 (V
O
≤ 2.0V)
(8)
Vishay-Sprague
597D, Tantalum (SMD) 16 220 40 2300 7,2 × 5,7 × 4,1 N/R
(6)
1 ~ 5 C ≥ 2
(2)
597D227X16E2T
94SP, OS-CON (Radial) 16 270 18 4400 10 × 10,5 ≥ 1
(3)
1 ~ 3 C ≥ 2
(2)
94SP277X0016FBP
94SVP OS-CON(SMD) 16 330 17 4500 10 × 12,7 ≥ 1
(3)
1 ~ 3 B ≥ 2
(2)
94SVP337X016F12
Kemet, Ceramic X5R 16 10 2 – 3225 ≥ 2
(3)
≥ 1
(9)
A
(2)
C1210C106M4PAC
(SMD) 6.3 47 2 N/R
(6)
≥ 1
(9)
A
(2)
C1210C476K9PAC
Murata, Ceramic X5R 6.3 100 2 – 3225 N/R
(6)
≥ 1
(9)
A
(2)
GRM32ER60J107M
(SMD) 6.3 47 N/R
(6)
≥ 1
(9)
A
(2)
GRM32ER60J476M
25 22 ≥ 1
(3)
≥ 1
(9)
A
(2)
GRM32ER61E226K
16 10 ≥ 2
(3)
≥ 1
(9)
A
(2)
GRM32DR61C106K
TDK, Ceramic X5R 6.3 100 2 – 3225 N/R
(6)
≥ 1
(9)
A
(2)
C3225X5R0J107MT
(SMD) 6.3 47 N/R
(10)
≥ 1
(11)
A
(12)
C3225X5R0J476MT
16 10 ≥ 2
(13)
≥ 1
(11)
A
(12)
C3225X5R1C106MT0
16 22 ≥ 1
(13)
≥ 1
(11)
A
(12)
C3225X5R1C226MT
(9) Any combination of ceramic capacitor values is limited to 500 µ F for PTH08T240W and 5000 µ F for PTH08T241W. The total
capacitance for PTH08T240W is limited to 10,000 µ F which includes all ceramic and non-ceramic types.
(10) N/R – Not recommended. The voltage rating does not meet the minimum operating limits.
(11) Any combination of ceramic capacitor values is limited to 500 µ F for PTH08T240W and 5000 µ F for PTH08T241W. The total
capacitance for PTH08T240W is limited to 10,000 µ F which includes all ceramic and non-ceramic types.
(12) Required capacitors with TurboTrans. See the TurboTrans Application information for Capacitor Selection
Capacitor Types:
a. Type A = (100 ≤ capacitance × ESR ≤ 1000)
b. Type B = (1,000 < capacitance × ESR ≤ 5,000)
c. Type C = (5,000 < capacitance × ESR ≤ 10,000)
(13) In addition to the required input electrolytic capacitance, ≥ 20 µ F of ceramic capacitance is required to reduce the high-frequency
reflected ripple current.
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