CDE HZA336M063F24VT-F Smt hybrid polymer-aluminum electrolytic capacitors for fi ltering, bypassing and power supply decoupling with long life requirement Datasheet

High Vibration
Type HZA_V -55 ºC to +105 ºC
SMT Hybrid Polymer-Aluminum Electrolytic Capacitors
For filtering, Bypassing and Power Supply Decoupling with Long Life Requirements
Using a ruggedized construction, type HZA_V withstands a 30 G
vibration test. As the main countermeasure to vibration, the metal
case is inserted into a molded plastic retaining wall that surrounds
the part, keeping it firmly in place. Larger diameter leads provide
additional mechanical stability of the internal winding and a
larger soldering surface keeps the part firmly affixed to the PCB.
Rated for 105°C, type HZA combines the advantages of aluminum
electrolytic and aluminum polymer technology. These hybrid
capacitors have the ultra-low ESR characteristics of conductive
aluminum polymer capacitors packaged in a V-chip, SMT case
with high capacitance and voltage ratings.
Highlights
+105 °C, Up to 10,000 Hours Load Life
Low Leakage Current
Very Low ESR and High Ripple Current
260 °C reflow soldering
Film
Specifications
-
Capacitance Range
22 to 330 µF
Capacitance Tolerance
±20% @ 120 Hz/+20 °C
Rated Voltage
25, 35, 50, 63, 80 Vdc
Leakage Current (at 20°C)
I = .01CV or 3 µA max., whichever is greater after 2 minutes
I = leakage current in µAmps
C = rated capacitance in µF
V = rated DC Working voltage in Volts
Low Temperature Characteristics (at 120 Hz)
Z(-25 ºC)/Z(+20 ºC): 2
Z(-55 ºC)/Z(+20 ºC): 2.5
Ripple Current Frequency Multiplier
Frequency
120 Hz
1000 Hz
10,000 Hz
100 KHz
0.1
0.3
0.6
1
Correction Factor
RoHS Compliant
Outline Drawing
mm
Size Code
D
L
A
B
H
± 0.5 ± 0.3 ± 0.2 ± 0.2 max.
F
W
I
P
K
R
S
T
±
(ref.)
(ref.) ± 0.2 ± 0.2 ± 0.2 ± 0.2
0.2
F
8
10.5
8.3
8.3
10
-1 to +0.15 3.4
1.2
3.1
0.70
0.70
5.3
1.3
G
10
10.5 10.3
10.3
12
-1 to +0.15 3.5
1.2
4.6
0.70
0.70
6.9
1.3
Capacitor Markings
Lot, Number: Year, Line, Month
Voltage
Code
Voltage
Vdc
E
25
V
35
H
50
J
63
K
80
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
High Vibration
Type HZA_V -55 ºC to +105 ºC
SMT Hybrid Polymer-Aluminum Electrolytic Capacitors
Part Numbering System
HZA
227
M
025
F
–F
24VT
RoHS
Compliant
Indicator
Packaging
Type
Capacitance
Capacitance Tolerance
Voltage Code
Case Code
Code
227 = 220 µF
M = ±20%
025 = 25 Vdc
See Ratings Table
24 = Tape
carrier
width (mm)
T = Tape & Reel
Film
V = High Vibration
Ratings
Capacitance
(uF)
Voltage
Rating
(Vdc)
CDE Part Number
Max. DCL
(uA)
Max. DF
@120
Hz/20°C
Max. Ripple
Max. E.S.R.
Current
@
@
100kHz/+20°C
100kHz/+105°C
(ohms)
(A rms)
D
(mm)
L
(mm)
Case
Code
QTY/
reel
25Vdc ( 32 Vdc Surge )
220
25
HZA227M025F24VT-F
55.0
0.14
0.027
2.3
8
10.5
F
500
330
25
HZA337M025G24VT-F
82.5
0.14
0.020
2.5
10
10.5
G
500
150
35
HZA157M035F24VT-F
52.5
0.12
0.027
2.3
8
10.5
F
500
270
35
HZA277M035G24VT-F
94.5
0.12
0.020
2.5
10
10.5
G
500
68
50
HZA686M050F24VT-F
34.0
100
50
HZA107M050G24VT-F
50.0
35Vdc ( 44 Vdc Surge )
50Vdc ( 63 Vdc Surge )
0.10
0.030
1.8
8
10.5
F
500
0.10
0.028
2.0
10
10.5
G
500
63Vdc ( 79 Vdc Surge )
33
63
HZA336M063F24VT-F
20.7
56
63
HZA566M063G24VT-F
35.2
0.08
0.040
1.7
8
10.5
F
500
0.08
0.030
1.8
10
10.5
G
500
80Vdc ( 100 Vdc Surge )
22
80
HZA226M080F24VT-F
17.6
0.08
0.045
1.55
8
10.5
F
500
33
80
HZA336M080G24VT-F
26.4
0.08
0.036
1.70
10
10.5
G
500
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
High Vibration
Type HZA_V -55 ºC to +105 ºC
SMT Hybrid Polymer-Aluminum Electrolytic Capacitors
Load Life Test
Test
Apply the maximum rated voltage for 10,000 hrs at +105 °C with full rated ripple current. After the test measure the
capacitance, DF, DCL and ESR at +20 °C. Also measure the ESR at -40 °C and 100kHz.
∆C at 120Hz
Capacitance will be within ±30% of the initial measured value
DF at 120 Hz
DF will be ≤ 200% of the initial specified value
DCL after 2 minute charge
ESR at 100kHz/+20 °C
Max. ESR at 100kHz/-40 °C after
Load Life test
Leakage current will be ≤ the initial specified value
ESR will be ≤ 200% of the initial specified value
Case Code C : 2.0 Ω; Case Code D : 1.4 Ω; Case Code X : 0.8 Ω;
Case Code F : 0.4 Ω; Case Code G : 0.3 Ω
Shelf Life Test
Subject the capacitor to 1000 hrs at +105 °C without voltage. After the test, return the capacitor to room temperature for
two hours and then apply rated voltage for 30 minutes. The after test measurements for capacitance, DF, DCL and ESR at
+20 °C will meet the following.
∆C at 120 Hz
Capacitance will be within ±30% of the initial measured value
DF at 120 Hz
DF will be ≤ 200% of the initial specified value
DCL after 2 minute charge
ESR at 100Khz/+20 °C
Leakage current will be ≤ the initial specified value
ESR will be ≤ 200% of the initial specified value
Moisture Resistance Test
Test
Subject the capacitor to 2000 hrs at +85 °C/85%RH with rated voltage. After the test, return the capacitor to room
temperature and humidity for two hours. The after test measurements for capacitance, DF, DCL and ESR at +20 °C will meet
the following.
∆C at 120 Hz
Capacitance will be within ±30% of the initial measured value
DF at 120 Hz
DF will be ≤ 200% of the initial specified value
DCL after 2 minute charge
ESR at 100Khz/+20 °C
Leakage current will be ≤ the initial specified value
ESR will be ≤ 200% of the initial specified value
Temperature Cycle Test
Subject the capacitor to 1000 cycles of temperature change from -55 °C to +105 °C using the following sequence and
durations.
Step
Test
Temperature
Time at Temperature
1
-55 ºC
30 minutes
2
+20 ºC
3 minutes max
3
+105 ºC
30 minutes
4
+20 ºC
3 minutes max
After the test, return the capacitor to +20°C for one to two hours before measurement. The after test measurements for
capacitance, DF, and DCL at +20 °C will meet the following;
∆C at 120 Hz
Capacitance will be within ±20% of the initial measured value
DF at 120 Hz
DF will be ≤ 200% of the initial specified value
DCL after 2 minute charge
Appearance
Leakage current will be ≤ the initial specified value
No significant change in appearance
High Vibration Test
Test
Capacitors with the high vibration base will pass a 30 G acceleration test from 5 Hz to 2000 Hz with a max. amplitude of 5
mm (peak to peak) for 2 hours each in the X,Y and Z directions for a total of 6 hours. During the last 30 minutes of the test,
the measured capacitance shall be stable. After the test the capacitor shall meet the following:
∆C at 120 Hz
Capacitance value will be within 5% of the initial value
Appearance
No significant change in appearance
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
Film
Test
High Vibration
Type HZA_V -55 ºC to +105 ºC
Film
SMT Hybrid Polymer-Aluminum Electrolytic Capacitors
Reel Dimensions
mm
Case Dia.
8
10
W
26
26
t
3
3
mm
Case Size
(mm)
Case Code
8 x 10.2
F
10 x 10.2
G
W ± 0.3
A ± 0.2
24
B +0.3/-0.2 C ± 0.5
8.7
8.7
12.5
10.7
10.7
14.5
F ± 0.1
P ± 0.1
t1
t2 ± 0.2
φd +0.1/-0
P1 ± 0.1
11.5
16
0.4
11
1.5
2
P2 ±
W1 ± 0.1
0.1
4
1.75
Recommended Land Dimensions
C
G
H
G
F
D
B
Case Code
Case
Dia.
A
B
C
D
E
F
G
H
F
8
2.7
4.0
4.7
1.3
1.0
1.7
1.1
2.5
G
10
3.9
4.4
4.7
1.3
1.2
1.9
1.1
2.5
E
A
+
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
High Vibration
Type HZA_V -55 ºC to +105 ºC
SMT Hybrid Polymer-Aluminum Electrolytic Capacitors
Recommended Reflow Soldering
300
Peak Temperature
250
Temperature (ºC)
30 sec.
200
230°C
200°C
70 sec.
Film
160°C
150
120 seconds
100
50
0
Time (sec)
Case
Code
Case Dia.
Peak
Time at or
(mm)
Temperature above 250 °C
F
8
G
10
260°C
5 seconds
Time at or
Time at or above Time at or above Number of Reflow
above 230 °C
217 °C
200 °C
Processes
30 seconds
40 seconds
70 seconds
1
Notes:
1. The capacitors in the 8m and 10 mm case dia. can withstand 2 reflow processes, if the peak temperature does not exceed 245 °C and the time at or
above 240 °C does not exceed 10 seconds.
2. The 2nd reflow process should be performed after the capacitors have returned to room temperature.
3. Temperature should be measured with a thermal couple placed on the top surface of the capacitor.
4. After reflow soldering, the leakage current, D.F., and e.s.r., will meet the initial specifications, and the capacitance will be within ±10% of the initial
measured value when measured at room conditions.
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
Film
Notice and Disclaimer: All product drawings, descriptions, specifications, statements, information and data
(collectively, the “Information”) in this datasheet or other publication are subject to change. The customer
is responsible for checking, confirming and verifying the extent to which the Information contained in this
datasheet or other publication is applicable to an order at the time the order is placed. All Information given
herein is believed to be accurate and reliable, but it is presented without any guarantee, warranty, representation
or responsibility of any kind, expressed or implied. Statements of suitability for certain applications are based
on the knowledge that the Cornell Dubilier company providing such statements (“Cornell Dubilier”) has
of operating conditions that such Cornell Dubilier company regards as typical for such applications, but
are not intended to constitute any guarantee, warranty or representation regarding any such matter – and
Cornell Dubilier specifically and expressly disclaims any guarantee, warranty or representation concerning
the suitability for a specific customer application, use, storage, transportation, or operating environment.
The Information is intended for use only by customers who have the requisite experience and capability to
determine the correct products for their application. Any technical advice inferred from this Information or
otherwise provided by Cornell Dubilier with reference to the use of any Cornell Dubilier products is given
gratis (unless otherwise specified by Cornell Dubilier), and Cornell Dubilier assumes no obligation or liability
for the advice given or results obtained. Although Cornell Dubilier strives to apply the most stringent quality
and safety standards regarding the design and manufacturing of its products, in light of the current state
of the art, isolated component failures may still occur. Accordingly, customer applications which require a
high degree of reliability or safety should employ suitable designs or other safeguards (such as installation
of protective circuitry or redundancies or other appropriate protective measures) in order to ensure that the
failure of an electrical component does not result in a risk of personal injury or property damage. Although
all product-related warnings, cautions and notes must be observed, the customer should not assume that all
safety measures are indicated in such warnings, cautions and notes, or that other safety measures may not be
required.
Similar pages