10

PS/LSeries
UltraLowESR/RoHSCompliant
(Unit: mm)
QFEATURES
OLead-free Type. RoHS Compliant.
OUltra-Low ESR
OSame Dimension as E/SV series
QDIMENSIONS[mm]
ZZ
H
LW1
W2
[J, P, A2, A cases]
[B3, B2 cases]
B2 case B3 case
[C2, C, V, D cases]
ZZ
H
LW1
W2
W2
ZZ
H
L
W2
W1
Case
code EIAcode L W1W2HZ
JɎ1.6±0.1 0.8±0.1 0.6±0.1 0.8±0.1 0.3±0.15
P 2012 2.0±0.2 1.25±0.2 0.9±0.1 1.1±0.1 0.5±0.1
A2U3216L 3.2±0.2 1.6±0.2 1.2±0.1 1.1±0.1 0.8±0.2
A 3216 3.2±0.2 1.6±0.2 1.2±0.1 1.6±0.2 0.8±0.2
B3W3528L 3.5±0.2 2.8±0.2 2.2±0.1 1.1±0.1 0.8±0.2
B2S3528 3.5±0.2 2.8±0.2 2.2±0.1 1.9±0.2 0.8±0.2
C2 Ɏ6.0±0.2 3.2±0.2 2.2±0.1 1.4±0.1 1.3±0.2
C 6032 6.0±0.2 3.2±0.2 2.2±0.1 2.5±0.2 1.3±0.2
V 7343L 7.3±0.2 4.3±0.2 2.4±0.1 1.9±0.1 1.3±0.2
D 7343 7.3±0.2 4.3±0.2 2.4±0.1 2.8±0.2 1.3±0.2
11
ConductivePolymertype
PS/LSeries
PSL D 0J 337 M
DC rated voltage in volts
Capacitance Tolerance
Capacitance (pF)
First two digits represent significant figures.
Third digit specifies number of zeros to follow.
M: ±20%
Case code
PS/L Series
(25)
Special numbering for ESR
ex. (25) shows 25 mΩ
0E: 2.5 V, 0G : 4 V, 0J : 6.3 V, 1A : 10 V, 1C: 16 V
TE
[Bulk] [Tape and Reel]
PSLD0J337M 12 R
Packing Orientation
Tape width
R : Cathode on the Side
of Sproket Hole
Part number of Bulk
Tape and Reel
8 : 8 mm (J, P, A2, A, B3, B2 case)
12 : 12 mm (C2, C, V, D cases)
TL PSLD0J337M 12 R E
Indicates 330mm reel
Tape and Reel
φ
TE: 180mm reel
φ
TL: 330mm reel
φ
QPARTNUMBERSYSTEM
QSTANDARDC-VVALUEREFERENCEBYCASECODE
UR2.5 V
0E
4V
0G
6.3V
0J
10V
1A
16V
1C
20V
1D
1.0
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
680
1000
105
225
335
475
685
106
156
226
336
476
686
107
157
227
337
477
687
108
J
J,P
J,P
P,A
P,A2,A
A2,A,B2
A2,A,B3,B2
A,B3,B2
A,B3,B2,C2,C
B3,B2,C2,C
B2,C2,C
B2,C2,C,V,D
V,D
V,D
J,P,A
P,A2,B2
A2,A
A,B3
A,C2,C
B3,B2,C2
B2,C
B2,C,V,D
C,V,D
D
D
P
A2
A2
B3
B2
B2,C,V
V
D
D
J
A
A2,A
A2,A,B2
A2,A,B2
A,B2,C
A,B3,B2,C
A,B3,B2,C2,C
B3,B2,C2,C,V,D
C2,C,V,D
C2,C,V,D
C,V,D
D
25V
1E
μ
F
A
B2
B2
B2
V
V,D
12
PS/LSeries
AG
Polarity
Marking Code
(DC Rated Voltage
and Capacitance)
J
Polarity
Marking Code
(DC Rated Voltage
and Capacitance)
FjA7
Polarity
Marking Code
(DC Rated Voltage
and Capacitance)
Marking Code
(DC Rated Voltage
and Capacitance)
Production Date Code
NE R
jE7
Polarity
Production Date Code
NE for NeoCapacitor
NE for NeoCapacitor
Marking Code
(DC Rated Voltage
and Capacitance)
Polarity
Production Date Code
NE R
jE8
[P case] (ex. 10 F / 4 V)
[J case] (ex. 4.7 F / 6.3 V)
[A2, A cases] (ex. 10 F / 6.3 V)
[B3, B2 cases] (ex. 15 F / 6.3 V)
[C2, C, D cases] (ex. 150 F / 6.3 V)
μ
μ
μ
μ
μ
[A2,A,B3,B2,C2,C,V,Dcasesproductiondatecode]
Note : Production date code will resume beginning in 2009
Jan. Feb. Mar. Apr. May. Jun. Jul. Aug. Sep. Oct. Nov. Dec.
2005 A B C D E F G H J K L M
2006 N P Q R S T U V W X Y Z
2007 a b c d e f g h j k l m
2008 n p q r s t u v w x y z
YM
[JcaseMarkingCode]
[PcaseMarkingCode]
[A2,A,B3,B2,C2,C,V,DcasesMarkingCode]
U
R
U
R
U
R
J
J
A
J
G
4V
2.5V
egjACDE
2.5V 4V 6.3V 10V 20V 25V16V
4V 6.3V 10V 16V
2.2
3.3
4.7
6.8
10
1.0
2.2
3.3
4.7
6.8
10
15
22
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
680
1000
N6
S6
W6
A7
E7
J7
N7
S7
W7
A8
E8
J8
N8
S8
W8
A9
eN7
eS7
eA8
eJ8
eN8
eS8
eW8
eA9
gA7
gJ7
gN7
gS7
gW7
gA8
gE8
gJ8
gN8
gS8
gW8
jW6
jA7
jE7
jJ7
jN7
jS7
jW7
jA8
jE8
jJ8
jN8
AN6
AS6
AW6
AA7
AE7
AJ7
AN7
AS7
AW7
AA8
AE8
AJ8
CN6
CS6
CW6
CA7
CN7
CS7
6.3V 10V
μF
μF
μF
NJ
SJ
WJ
AG AJ
Je JG
13
ConductivePolymertype
PS/LSeries
QPERFORMANCECHARACTERISTICS Test Conditions : Conform to IEC 60384-1
at 85℃
at 105℃
at 85℃
at 120 Hz
at 100 kHz
Reflow soldering method 240℃,
10 sec.Max.
10V
8V
13V
16V
12.8V
20V
4V
3.3V
5.2V
6.3V
5V
8V
2.5V
2V
3.3V
Lower than initial
specification
Parts shall be temperature cycled
over a temperature range of -55 to
+105℃, five times continuously as
follow.
Step 1: -55 ℃, 30±3min.
Step 2: room temp. , 10 to 15min.
Step 3: 105 ℃, 30±3min.
Step 4: room temp, 10 to 15min.
at 40℃
at 90 to 95% RH
500 hour
at 85℃
at rated voltage
1000 hour
Strength : 4.9N
Time : 10±0.5sec.
(two directions)
Lower than initial
specification
Lower than initial
specification
PERFORMANCE TEST CONDITION
Operating temperature
Rated voltage (V.dc)
Derated voltage (V.dc)
Surge voltage (V.dc)
Capacitance
Capacitance tolerance
DC Leakage Current (L.C)
Dissipation Factor
Equivalent Series Resistance
-55℃ to +105℃
ITEM
Surge voltage test
2.2 μF to 1000 μF
L.C
Refer to Standard Ratings
Refer to Standard Ratings
Refer to Standard Ratings
at 120 Hz
±20%
λ
0
= 1% / 1000 hour
Visual:
There shall be no evidence of mechanical damage
Refer to Standard Ratings
from +30% to -20%
Refer to Standard Ratings
at 85℃: rated voltage
at 105℃: derated voltage
Lower than initial
specification
Lower than 1.5 times initial
specification
Endurance
Lower than initial
specification
Refer to Standard Ratings Lower than 3 times initial
specification
Endurance
Damp heat
Failure Rate
Terminal Strength
Lower than 1.5 times initial
specification
Voltage:
Rated voltage for 5min.
Temperature : 85±2℃
Applied voltage : Surge voltage
Series resistance : 33 ohm
Duration of surge : 30±5 sec
Time between surge : 5.5min.
Number of cycle : 1000
0.1C • V(μA) or 3mA (J case:10μA) , whichever is greater
Lower than initial
specification
Lower than initial
specification
Capacitance change DF(%)
Rapid change of
temperature
Resistance to Soldering
heat
Characteristic
at high and low
temperature
Lower than 1.3 times initial
specification
-55℃
+105℃
from 0 to –20%
from 0 to +50%
Lower than initial
specification
Refer to Standard Ratings
Lower than initial
specification
Lower than 1.5 times
initial specification
Lower than 10 times
initial specification
Step 1: 25±2℃
Step 2: -55 ℃
Step 3: 25±2℃
Step 4: 105 ℃
0
-3
0
-3
0
-3
0
-3
Permissible ripple current Refer to Ratings Table at 100 kHz
Conform to IEC60384-1 Conform to IEC60384-1Other
at 105℃
at Derated voltage
1000 hour
————
Derate voltage at 85℃ at more
*1
[UT]=[UR]‒ [UR]‒[UC]
20
Reference:Deratedvoltage(85to105°C)
[UT]:Deratedvoltageatoperatingtemperature
[UR]:Ratedvoltage
[UC]:Deratedvoltageat105°C
T :Ambienttemperature
(T‒85)
*1: Refer to the page 47 “NOTES ON USING NeoCapacitor/2. Mounting/(1) Refl ow soldering/(b) Temperature and time”
14
PS/LSeries
Capacitance
Voltage
(V)
Case
Code
Part
Number
(Bulk)
Leakage
Current
μF) μA)
DF
(%)(mΩ
ESR
Permissible
Ripple
Current
(mA rms.)
Rated DF 
(%)Capacitance Change
-5℃ +105℃ at Endurance
Soldering Heat
at Resistance to
at Surge Voltage
2.5
22 P PSLP0E226M 5.5 6 200 354 6 9 ±20% ±20%
33 A2 PSLA20E336M 8.3 6 150 632 6 9 ±20% ±20%
47 A2 PSLA20E476M 11.7 6 150 632 6 9 ±20% ±20%
100 B3 PSLB30E107M 25 8 70 1035 8 12 ±20% ±20%
220 B2 PSLB20E227M 55 8 45 1374 8 12 ±20% ±20%
220 B2 PSLB20E227M(35)55 8 35 1558 8 12 ±20% ±20%
220 B2 PSLB20E227M(25)55 8 25 1844 8 12 ±20% ±20%
330 B2 PSLB20E337M 82.5 8 45 1374 8 12 ±20% ±20%
330 C PSLC0E337M 82.5 10 55 1414 10 15 ±20% ±20%
330 C PSLC0E337M(45)82.5 10 45 1563 10 15 ±20% ±20%
330 C PSLC0E337M(25)82.5 10 25 2098 10 15 ±20% ±20%
330 C PSLC0E337M(18)82.5 10 18 2472 10 15 ±20% ±20%
330 V PSLV0E337M 82.5 10 25 2236 10 15 ±20% ±20%
330 V PSLV0E337M(15)82.5 10 15 2887 10 15 ±20% ±20%
330 V PSLV0E337M(12)82.5 10 12 3227 10 15 ±20% ±20%
470 V PSLV0E477M(15)117.5 10 15 2887 10 15 ±20% ±20%
470 V PSLV0E477M(12)117.5 10 12 3227 10 15 ±20% ±20%
680 D PSLD0E687M 170 10 25 2449 10 15 ±20% ±20%
680 D PSLD0E687M(15)170 10 15 3162 10 15 ±20% ±20%
680 D PSLD0E687M(12)170 10 12 3536 10 15 ±20% ±20%
1000 D PSLD0E108M 250 10 25 2449 10 15 ±20% ±20%
1000 D PSLD0E108M(15)250 10 15 3162 10 15 ±20% ±20%
4
10 J PSLJ0G106M 10 4 300 183 4 6 ±20% ±20%
10 P PSLP0G106M 4 6 200 354 6 9 ±20% ±20%
10 A PSLA0G106M 4 6 200 612 6 9 ±20% ±20%
22 P PSLP0G226M 8.8 6 200 354 6 9 ±20% ±20%
22 A2 PSLA20G226M 8.8 6 200 548 6 9 ±20% ±20%
22 B2 PSLB20G226M 8.8 8 150 753 8 12 ±20% ±20%
33 A2 PSLA20G336M 13.2 6 150 632 6 9 ±20% ±20%
33 A PSLA0G336M 13.2 6 180 645 6 9 ±20% ±20%
47 A PSLA0G476M 18.8 6 180 645 6 9 ±20% ±20%
47 B3 PSLB30G476M 18.8 8 70 1035 8 12 ±20% ±20%
68 A PSLA0G686M 27.2 6 180 645 6 9 ±20% ±20%
68 C2 PSLC20G686M 27.2 8 55 1279 8 12 ±20% ±20%
68 C PSLC0G686M 27.2 9 100 1049 9 14 ±20% ±20%
100 B3 PSLB30G107M 40 8 70 1035 8 12 ±20% ±20%
100 B2 PSLB20G107M 40 8 70 1102 8 12 ±20% ±20%
100 B2 PSLB20G107M(45)40 8 45 1374 8 12 ±20% ±20%
100 B2 PSLB20G107M(35)40 8 35 1558 8 12 ±20% ±20%
100 C2 PSLC20G107M 40 9 55 1279 9 14 ±20% ±20%
150 B2 PSLB20G157M 60 8 45 1374 8 12 ±20% ±20%
150 B2 PSLB20G157M(35)60 8 35 1558 8 12 ±20% ±20%
150 B2 PSLB20G157M(25)60 8 25 1844 8 12 ±20% ±20%
150 C PSLC0G157M 60 9 100 1049 9 14 ±20% ±20%
220 B2 PSLB20G227M 88 8 45 1374 8 12 ±20% ±20%
220 C PSLC0G227M 88 9 55 1414 9 14 ±20% ±20%
220 C PSLC0G227M(45)88 9 45 1563 9 14 ±20% ±20%
220 C PSLC0G227M(25)88 9 25 2098 9 14 ±20% ±20%
220 C PSLC0G227M(18)88 9 18 2472 9 14 ±20% ±20%
220 V PSLV0G227M 88 10 45 1667 10 15 ±20% ±20%
220 V PSLV0G227M(25)88 10 25 2236 10 15 ±20% ±20%
220 V PSLV0G227M(18)88 10 18 2635 10 15 ±20% ±20%
220 V PSLV0G227M(15)88 10 15 2887 10 15 ±20% ±20%
220 V PSLV0G227M(12)88 10 12 3227 10 15 ±20% ±20%
220 D PSLD0G227M 88 10 55 1651 10 15 ±20% ±20%
220 D PSLD0G227M(40)88 10 40 1936 10 15 ±20% ±20%
220 D PSLD0G227M(25)88 10 25 2449 10 15 ±20% ±20%
220 D PSLD0G227M(15)88 10 15 3162 10 15 ±20% ±20%
220 D PSLD0G227M(12)88 10 12 3536 10 15 ±20% ±20%
330 C PSLC0G337M 132 10 55 1414 10 15 ±20% ±20%
330 V PSLV0G337M 132 10 45 1667 10 15 ±20% ±20%
330 V PSLV0G337M(25)132 10 25 2236 10 15 ±20% ±20%
330 V PSLV0G337M(12)132 10 12 3227 10 15 ±20% ±20%
330 D PSLD0G337M 132 10 40 1936 10 15 ±20% ±20%
330 D PSLD0G337M(25)132 10 25 2449 10 15 ±20% ±20%
STANDARDRATINGS
15
ConductivePolymertype
PS/LSeries
Capacitance
Voltage
(V)
Case
Code
Part
Number
(Bulk)
Leakage
Current
μF) μA)
DF
(%)(mΩ
ESR
Permissible
Ripple
Current
(mA rms.)
Rated DF 
(%)Capacitance Change
-5℃ +105℃ at Endurance
Soldering Heat
at Resistance to
at Surge Voltage
4
330 D PSLD0G337M(15)132 10 15 3162 10 15 ±20% ±20%
470 D PSLD0G477M 188 10 25 2449 10 15 ±20% ±20%
470 D PSLD0G477M(18)188 10 18 2887 10 15 ±20% ±20%
470 D PSLD0G477M(15)188 10 15 3162 10 15 ±20% ±20%
470 D PSLD0G477M(12)188 10 12 3536 10 15 ±20% ±20%
470 D PSLD0G477M(10)188 10 10 3873 10 15 ±20% ±20%
680 D PSLD0G687M 272 10 25 2449 10 15 ±20% ±20%
680 D PSLD0G687M(15)272 10 15 3162 10 15 ±20% ±20%
680 D PSLD0G687M(12)272 10 12 3536 10 15 ±20% ±20%
6.3
2.2 J PSLJ0J225M 10 4 500 141 4 6 ±20% ±20%
3.3 J PSLJ0J335M 10 4 500 141 4 6 ±20% ±20%
3.3 P PSLP0J335M 3 6 300 289 6 9 ±20% ±20%
4.7 J PSLJ0J475M 10 4 500 141 4 6 ±20% ±20%
4.7 P PSLP0J475M 3 6 300 289 6 9 ±20% ±20%
6.8 P PSLP0J685M 4.2 6 300 289 6 9 ±20% ±20%
6.8 A PSLA0J685M 4.2 6 300 500 6 9 ±20% ±20%
10 P PSLP0J106M 6.3 6 200 354 6 9 ±20% ±20%
10 A2 PSLA20J106M 6.3 6 200 548 6 9 ±20% ±20%
10 A PSLA0J106M
6.3 6 200 612 6 9 ±20% ±20%
15 A2 PSLA20J156M 9.4 6 200 548 6 9 ±20% ±20%
15 A PSLA0J156M 9.4 6 200 612 6 9 ±20% ±20%
15 B2 PSLB20J156M 9.4 8 150 753 8 12 ±20% ±20%
22 A2 PSLA20J226M 13.8 6 200 548 6 9 ±20% ±20%
22 A PSLA0J226M 13.8 6 180 645 6 9 ±20% ±20%
22 B3 PSLB30J226M 13.8 8 70 1035 8 12 ±20% ±20%
22 B2 PSLB20J226M 13.8 8 150 753 8 12 ±20% ±20%
33 A PSLA0J336M 20.7 6 180 645 6 9 ±20% ±20%
33 B3 PSLB30J336M 20.7 8 70 1035 8 12 ±20% ±20%
33 B2 PSLB20J336M 20.7 8 150 753 8 12 ±20% ±20%
47 A PSLA0J476M 29.6 6 180 645 6 9 ±20% ±20%
47 B3 PSLB30J476M 29.6 8 70 1035 8 12 ±20% ±20%
47 B3 PSLB30J476M(55)29.6 8 55 1168 8 12 ±20% ±20%
47 B2 PSLB20J476M 29.6 8 150 753 8 12 ±20% ±20%
47 B2 PSLB20J476M(70)29.6 8 70 1102 8 12 ±20% ±20%
47 C2 PSLC20J476M 29.6 9 70 1134 9 14 ±20% ±20%
47 C PSLC0J476M 29.6 9 100 1049 9 14 ±20% ±20%
68 B3 PSLB30J686M 42.8 8 70 1035 8 12 ±20% ±20%
68 B2 PSLB20J686M 42.8 8 70 1102 8 12 ±20% ±20%
68 B2 PSLB20J686M(55)42.8 8 55 1243 8 12 ±20% ±20%
68 C2 PSLC20J686M 42.8 9 55 1279 9 14 ±20% ±20%
68 C PSLC0J686M 42.8 9 100 1049 9 14 ±20% ±20%
100 B2 PSLB20J107M 63 8 70 1102 8 12 ±20% ±20%
100 B2 PSLB20J107M(45)63 8 45 1374 8 12 ±20% ±20%
100 B2 PSLB20J107M(35)63 8 35 1558 8 12 ±20% ±20%
100 B2 PSLB20J107M(25)63 8 25 1844 8 12 ±20% ±20%
100 C2 PSLC20J107M 63 9 70 1134 9 14 ±20% ±20%
100 C2
PSLC20J107M(55)
63 9 55 1279 9 14 ±20% ±20%
100 C PSLC0J107M 63 9 100 1049 9 14 ±20% ±20%
100 C PSLC0J107M(55)63 9 55 1414 9 14 ±20% ±20%
150 B2 PSLB20J157M 94.5 8 45 1374 8 12 ±20% ±20%
150 C2 PSLC20J157M 94.5 9 55 1279 9 14 ±20% ±20%
150 C PSLC0J157M 94.5 9 100 1049 9 14 ±20% ±20%
150 C PSLC0J157M(55)94.5 9 55 1414 9 14 ±20% ±20%
150 C PSLC0J157M(45)94.5 9 45 1563 9 14 ±20% ±20%
150 C PSLC0J157M(25)94.5 9 25 2098 9 14 ±20% ±20%
150 V PSLV0J157M 94.5 10 45 1667 10 15 ±20% ±20%
150 V PSLV0J157M(25)94.5 10 25 2236 10 15 ±20% ±20%
150 V PSLV0J157M(18)94.5 10 18 2635 10 15 ±20% ±20%
150 D PSLD0J157M 94.5 10 55 1651 10 15 ±20% ±20%
150 D PSLD0J157M(40)94.5 10 40 1936 10 15 ±20% ±20%
150 D PSLD0J157M(25)94.5 10 25 2449 10 15 ±20% ±20%
220 V PSLV0J227M 138.6 10 45 1667 10 15 ±20% ±20%
220 V PSLV0J227M(25)138.6 10 25 2236 10 15 ±20% ±20%
220 V PSLV0J227M(15)138.6 10 15 2887 10 15 ±20% ±20%
220 V PSLV0J227M(12)138.6 10 12 3227 10 15 ±20% ±20%
16
PS/LSeries
Capacitance
Voltage
(V)
Case
Code
Part
Number
(Bulk)
Leakage
Current
μF) μA)
DF
(%)(mΩ
ESR
Permissible
Ripple
Current
(mA rms.)
Rated DF 
(%)Capacitance Change
-5℃ +105℃ at Endurance
Soldering Heat
at Resistance to
at Surge Voltage
6.3
220 D PSLD0J227M 138.6 10 55 1651 10 15 ±20% ±20%
220 D PSLD0J227M(40)138.6 10 40 1936 10 15 ±20% ±20%
330 V PSLV0J337M 207.9 10 45 1667 10 15 ±20% ±20%
330 V PSLV0J337M(25)207.9 10 25 2236 10 15 ±20% ±20%
330 D PSLD0J337M 207.9 10 40 1936 10 15 ±20% ±20%
330 D PSLD0J337M(25)207.9 10 25 2449 10 15 ±20% ±20%
330 D PSLD0J337M(18)207.9 10 18 2887 10 15 ±20% ±20%
10
2.2 J PSLJ1A225M 10 4 500 141 4 6 ±20% ±20%
3.3 A PSLA1A335M 3.3 6 300 500 6 9 ±20% ±20%
4.7 A2 PSLA21A475M 4.7 6 300 447 6 9 ±20% ±20%
4.7 A PSLA1A475M 4.7 6 300 500 6 9 ±20% ±20%
6.8 A2 PSLA21A685M 6.8 6 300 447 6 9 ±20% ±20%
6.8 A PSLA1A685M 6.8 6 300 500 6 9 ±20% ±20%
6.8 B2 PSLB21A685M 6.8 8 200 652 8 12 ±20% ±20%
10 A2 PSLA21A106M 10 6 200 548 6 9 ±20% ±20%
10 A PSLA1A106M 10 6 200 612 6 9 ±20% ±20%
10 B2 PSLB21A106M 10 8 200 652 8 12 ±20% ±20%
15 A PSLA1A156M 15 6 180 645 6 9 ±20% ±20%
15 B2 PSLB21A156M 15 8 150 753 8 12 ±20% ±20%
15 C PSLC1A156M 15 9 200 742 9 14 ±20% ±20%
22 A PSLA1A226M 22 6 180 645 6 9 ±20% ±20%
22 B3 PSLB31A226M 22 8 70 1035 8 12 ±20% ±20%
22 B2 PSLB21A226M 22 8 150 753 8 12 ±20% ±20%
22 C PSLC1A226M 22 9 150 856 9 14 ±20% ±20%
33 A PSLA1A336M 33 8 200 612 8 12 ±20% ±20%
33 B3 PSLB31A336M 33 8 70 1035 8 12 ±20% ±20%
33 B2 PSLB21A336M 33 8 150 753 8 12 ±20% ±20%
33 C2 PSLC21A336M 33 9 70 1134 9 14 ±20% ±20%
33 C PSLC1A336M 33 9 100 1049 9 14 ±20% ±20%
47 B3 PSLB31A476M 47 8 70 1035 8 12 ±20% ±20%
47 B2 PSLB21A476M 47 8 70 1102 8 12 ±20% ±20%
47 C2 PSLC21A476M 47 9 70 1134 9 14 ±20% ±20%
47 C PSLC1A476M 47 9 100 1049 9 14 ±20% ±20%
47 C PSLC1A476M(55)47 9 55 1414 9 14 ±20% ±20%
47 V PSLV1A476M 47 10 60 1443 10 15 ±20% ±20%
47 D PSLD1A476M 47 10 100 1225 10 15 ±20% ±20%
68 C2 PSLC21A686M 68 9 55 1279 9 14 ±20% ±20%
68 C PSLC1A686M 68 9 100 1049 9 14 ±20% ±20%
68 C PSLC1A686M(55)68 9 55 1414 9 14 ±20% ±20%
68 V PSLV1A686M 68 10 60 1443 10 15 ±20% ±20%
68 D PSLD1A686M 68 10 100 1225 10 15 ±20% ±20%
100 V PSLV1A107M 100 10 45 1667 10 15 ±20% ±20%
100 V PSLV1A107M(25)100 10 25 2236 10 15 ±20% ±20%
100 C2 PSLC21A107M 100 9 70 1134 9 14 ±20% ±20%
100 C2 PSLC21A107M(55)100 9 55 1279 9 14 ±20% ±20%
100 C PSLC1A107M 100 9 100 1049 9 14 ±20% ±20%
100 C PSLC1A107M(55)100 9 55 1414 9 14 ±20% ±20%
100 D PSLD1A107M 100 10 55 1651 10 15 ±20% ±20%
150 C PSLC1A157M 150 9 55 1414 9 14 ±20% ±20%
150 V PSLV1A157M 150 10 45 1667 10 15 ±20% ±20%
150 V PSLV1A157M(40)150 10 40 1768 10 15 ±20% ±20%
150 D PSLD1A157M 150 10 55 1651 10 15 ±20% ±20%
150 D PSLD1A157M(40)150 10 40 1936 10 15 ±20% ±20%
220 D PSLD1A227M 220 10 55 1651 10 15 ±20% ±20%
220 D PSLD1A227M(40)220 10 40 1936 10 15 ±20% ±20%
220 D PSLD1A227M(25)220 10 25 2449 10 15 ±20% ±20%
16
3.3 A PSLA1C335M 5.2 6 800 306 6 9 ±20% ±20%
4.7 B2 PSLB21C475M 7.5 8 200 652 8 12 ±20% ±20%
6.8 B2 PSLB21C685M 10.8 8 200 652 8 12 ±20% ±20%
10 B2 PSLB21C106M 16 8 100 922 8 12 ±20% ±20%
33 V PSLV1C336M 52.8 10 70 1336 10 15 ±20% ±20%
47 V PSLV1C476M 75.2 10 70 1336 10 15 ±20% ±20%
47 D PSLD1C476M 75.2 10 70 1464 10 15 ±20% ±20%