718P/719P

Type 718P/719P, Orange Drop®, High Voltage Polypropylene Film/Foil
Ordering/Part Number Information
719P 222 5 1500 M B 3 – XXX
A suffix may be added to denote special construction,
marking, packaging, test requirements, etc.
Lead Length
1 = 0.187 (4.7) ±0.030 (0.8)
2 = 0.250 (6.4) ±0.030 (0.8)
3 = 1.250 (32) Minimum
Other specific lead lengths available upon request
A = Straight Lead
B = Hairpin Crimp
D = Hockey Stick Crimp
Lead Style
Case Code
Set code for factory reference.
AC Voltage Rating
Capacitance Tolerance 9 = ±10%; 5 = ±5%; 3 = ±3%;
2 = ±2%; 1 = ±1%
Capacitance
Expressed in Picofarads. The first two digits
are the significant figures, the third is the number
of zeros following (i.e. 222 = 2200 pF = 0.0022 μF)
CDE Type Number
71
Identifies basic capacitor design.
=
8P Round profile
719P = Pressed profile
Standard Marking Format
Sample Marking
on unit
CDE719P1500VAC
222J 0515
Description
CDE
719P
1500VAC
222J
0515
-
CDE Identification
Type Number
AC Voltage Rating
Capacitance and Tolerance Code
Weekly Date Code
(i.e. 15th week of 2005)
Tolerance codes
per EIA standards
F
G
H
J
K
±1%
±2%
±3%
±5%
±10%
Dimensions are in inches, millimeters are in parenthesis.
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
Type 718P/719P, Orange Drop®, High Voltage Polypropylene Film/Foil
Application Notes & Considerations
Corona:
Corona is a small but locally intense electrical discharge that inje cts charge into the insulating film
adjacent to edges of foil/metallization or a location where air is trapped between foil/metallization and
the film. The discharge is caused by a voltage gradie nt large enough to ionize molecules in either the
film or small air pockets. Each discharge does some small but cumulative damage to the film. Corona
is a very important consideration for AC and/or pulse applications where the cumlative damage can
rapidly accrue and cause dielectric failure. For a plain film & foil part this will result in a short circuit.
However, for a capacitor employing metallized film the “clearing” around th e dielectric failure site
results in progressive capacitance loss. The 718P/719P series utilizes a hybrid film/foil design
approach, incorporating the use of extended foil for direct connection of the lead wires and a floating
metallized common.
Corona Inception Voltage (CIV) is the peak-to-peak voltage at w hich corona discharge begins; it is
also commonly referred to as Corona Start Voltage (CSV). It is traditionally expressed as the RMS
value of a sin e wave with the above peak-to-peak val ue. It is not practical to try and list all the facts
and issues associated with corona, therefore we highly encourage y ou to contact us to discuss your
application and the importance of carefully considering the effects of corona.
dV/dt (Pulse Rise Time):
Pulse Rise Time, commonly referred to as dV/dt, is the maximum guaranteed repetitive rate of voltage
change [slew rate] a capacitor can withstand without dam age during the lifetime of an application,
expressed in Volts/μsec or KV/μsec. dV/dt also expresses current pulse capability without requiring a
nearly impossible pulse current measurement. Pulse current is only an issue for a pure metallized
capacitor where pulse currents above the rated value can destroy the connection to the metallization.
With leads welded directly to extended foil, film /foil capacitor dV/dt is only limited by corona
inception [AC voltage rating] and application circuit inductance. CDE’s dV/dt ratings are provided to
assure capacitors are NEVER operated in corona to assure highest possible reliability in pulse
applications.
As mentioned above we strongly encourage you to contact us with your questions and/or specific
requirements.
CDE’s Design Philosophy:
The CDE approach is to design and manufacture capacitors to outlast the life of the product they are
installed in. Our units are designed and rated to operate continuously at the maximum limits stated in
our specifications. There are times when an application will push these limits. Our expertise lies in
understanding the limits of film capacitors and we welcome the opportunity to assist you in
understanding these limits also!
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
Type 718P/719P, Orange Drop®, High Voltage Polypropylene Film/Foil
Lead Styles/Lead Spacings
L
L
L
MAX
DIA
MAX
MAX
MAX
0.060” (1.5)
MAX
0.25” (6.4)
MAX
Lead
Length
0.25” (6.4)
MAX
Lead
Length
Lead
Length
d
1.407 (35.7)
1.344 (34.1)
1.083 (27.5)
±0.030 (0.8)
±0.020 (0.5)
±0.020 (0.5)
Lead Style A
Lead Style B
Lead Style D
Type 718P, 1500 VAC/5000 VDC Sizes/Ratings
Cap
Value (µF)
Part Number*
L MAX
DIA MAX
Wire (d)
Max dV/dt
(Volts/µsec)
Peak I
Amps
.00056
.00068
.00082
.001
.0012
.0015
.0016
.0018
.0020
.0022
.0023
.0024
.0025
.0027
.0028
.0030
.0033
.0036
.0039
.0040
.0043
.0047
.0050
.0051
.0056
.0060
.0062
.0068
.0070
.0075
.0080
.0082
.0090
.0091
.0093
.01
.012
718P56151500M
718P68151500M
718P82151500M
718P10251500M
718P12251500M
718P15251500M
718P16251500M
718P18251500M
718P20251500M
718P22251500M
718P23251500M
718P24251500M
718P25251500M
718P27251500M
718P28251500M
718P30251500M
718P33251500M
718P36251500M
718P39251500M
718P40251500M
718P43251500M
718P47251500M
718P50251500M
718P51251500M
718P56251500M
718P60251500M
718P62251500M
718P68251500M
718P70251500M
718P75251500M
718P80251500M
718P82251500M
718P90251500M
718P91251500M
718P93251500M
718P10351500M
718P12351500M
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
0.30 (7.6)
0.31 (7.9)
0.33 (8.4)
0.35 (8.9)
0.36 (9.1)
0.39 (9.9)
0.39 (9.9)
0.41 (10.4)
0.42 (10.7)
0.44 (11.2)
0.44 (11.2)
0.45 (11.4)
0.46 (11.7)
0.47 (11.9)
0.48 (12.2)
0.49 (12.4)
0.50 (12.7)
0.52 (13.2)
0.54 (13.7)
0.54 (13.7)
0.56 (14.2)
0.58 (14.7)
0.59 (15.0)
0.60 (15.2)
0.62 (15.7)
0.63 (16.0)
0.64 (16.3)
0.67 (17.0)
0.68 (17.3)
0.70 (17.8)
0.71 (18.0)
0.72 (18.3)
0.75 (19.1)
0.75 (19.1)
0.76 (19.3)
0.78 (19.8)
0.85 (21.6)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
357000
324000
295000
267000
244000
218000
211000
199000
189000
180000
176000
172000
169000
162000
159000
154000
147000
141000
135000
133000
129000
123000
119000
118000
113000
109000
107000
102000
101000
97000
94000
93000
89000
88000
88000
84000
77000
200
220
242
266
292
326
338
358
378
396
404
414
422
438
446
462
484
506
528
534
554
578
596
602
632
654
664
696
706
730
754
764
800
806
806
844
924
Max % D.F.
10KHz 100KHz
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.022
0.022
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
Max ESR (mΩ)
10KHz 100KHz
6106
5028
4170
3419
2850
2280
2137
1900
1710
1555
1487
1425
1368
1267
1222
1140
1037
950
877
855
796
728
684
671
611
570
552
503
489
456
428
417
380
376
368
342
285
812
669
555
455
380
304
285
254
228
208
199
190
183
169
163
153
139
127
118
115
107
97
92
90
82
77
74
68
66
61
58
56
51
51
50
46
39
* For complete part number please refer to Ordering/Part Number Information page.
Dimensions are in inches, millimeters are in parenthesis.
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
Type 718P/719P, Orange Drop®, High Voltage Polypropylene Film/Foil
Lead Styles/Lead Spacings
L
MAX
T
L
L
MAX
MAX
MAX
0.060” (1.5)
MAX
H
MAX
0.25” (6.4)
MAX
Lead
Length
Lead
Length
0.25” (6.4)
MAX
Lead
Length
d
1.407 (35.7)
1.344 (34.0)
±0.030 (0.8)
1.083 (27.5)
±0.020 (0.5)
±0.020 (0.5)
Lead Style A
Lead Style B
Lead Style D
Type 719P, 1500 VAC/5000 VDC Sizes/Ratings
Cap
Value (µF)
Part Number*
L MAX
.001
.0011
.0012
.0015
.0016
.0018
.0020
.0022
.0023
.0024
.0025
.0027
.0028
.0030
.0033
.0036
.0039
.0040
.0043
.0047
.0050
.0051
.0056
.0060
.0062
.0068
.0070
.0075
.0080
.0082
.0090
.0091
.0093
.01
.012
719P10251500M
719P11251500M
719P12251500M
719P15251500M
719P16251500M
719P18251500M
719P20251500M
719P22251500M
719P23251500M
719P24251500M
719P25251500M
719P27251500M
719P28251500M
719P30251500M
719P33251500M
719P36251500M
719P39251500M
719P40251500M
719P43251500M
719P47251500M
719P50251500M
719P51251500M
719P56251500M
719P60251500M
719P62251500M
719P68251500M
719P70251500M
719P75251500M
719P80251500M
719P82251500M
719P90251500M
719P91251500M
719P93251500M
719P10351500M
719P12351500M
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
1.60 (40.6)
T MAX
0.22 (5.6)
0.23 (5.8)
0.24 (6.1)
0.26 (6.6)
0.27 (6.9)
0.29 (7.4)
0.30 (7.6)
0.31 (7.9)
0.32 (8.1)
0.33 (8.4)
0.33 (8.4)
0.35 (8.9)
0.35 (8.9)
0.36 (9.1)
0.38 (9.7)
0.40 (10.2)
0.41 (10.4)
0.42 (10.7)
0.43 (10.9)
0.43 (10.9)
0.44 (11.2)
0.45 (11.4)
0.47 (11.9)
0.49 (12.4)
0.49 (12.4)
0.52 (13.2)
0.53 (13.5)
0.54 (13.7)
0.56 (14.2)
0.57 (14.5)
0.60 (15.2)
0.60 (15.2)
0.61 (15.5)
0.63 (16.0)
0.70 (17.8)
H MAX
0.42 (10.7)
0.43 (10.9)
0.43 (10.9)
0.46 (11.7)
0.47 (11.9)
0.48 (12.2)
0.50 (12.7)
0.51 (13.0)
0.52 (13.2)
0.52 (13.2)
0.53 (13.5)
0.54 (13.7)
0.55 (14.0)
0.56 (14.2)
0.58 (14.7)
0.59 (15.0)
0.61 (15.5)
0.61 (15.5)
0.63 (16.0)
0.67 (17.0)
0.69 (17.5)
0.69 (17.5)
0.71 (18.0)
0.73 (18.5)
0.74 (18.8)
0.76 (19.3)
0.77 (19.6)
0.79 (20.1)
0.81 (20.6)
0.82 (20.8)
0.84 (21.3)
0.85 (21.6)
0.85 (21.6)
0.88 (22.4)
0.94 (23.9)
Wire (d)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.032 (0.8)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
0.040 (1.0)
Max dV/dt Peak I
(Volts/µsec) Amps
267000
254000
244000
218000
211000
199000
189000
180000
176000
172000
169000
162000
159000
154000
147000
141000
135000
133000
129000
123000
119000
118000
113000
109000
107000
102000
101000
97000
94000
93000
89000
88000
88000
84000
77000
Max % D.F.
10KHz 100KHz
266
280
292
326
338
358
378
396
404
414
422
438
446
462
484
506
528
534
554
578
596
602
632
654
664
696
706
730
754
764
800
806
806
844
924
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.021
0.022
0.022
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
0.029
Max ESR (mΩ)
10KHz 100KHz
3419
3109
2850
2280
2137
1900
1710
1555
1487
1425
1368
1267
1222
1140
1037
950
877
855
796
728
684
671
611
570
552
503
489
456
428
417
380
376
368
342
285
455
414
380
304
285
254
228
208
199
190
183
169
163
154
139
127
118
115
107
97
92
90
82
77
74
68
66
61
58
56
51
51
50
46
39
* For complete part number please refer to Ordering/Part Number Information page.
Dimensions are in inches, millimeters are in parenthesis.
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
Type 718P/719P, Orange Drop, High Voltage, Polypropylene Film/Foil
Voltage (RMS)
10000
Type 718P RMS Voltage vs. Frequency at 70°C ambient
1500
1000
100
10
100
1000
Frequency (KHz)
10000
0.00056
0.001
0.0022
0.0047
0.012
Voltage (RMS)
Type 718P RMS Voltage vs. Frequency at 85°C ambient
1500
1000
100
10
100
0.00056
Voltage (RMS)
1000
Frequency (KHz)
10000
0.001
0.0022
0.0047
0.012
Type 718P RMS Voltage vs. Frequency at 95°C ambient
1500
1000
100
10
100
1000
Frequency (KHz)
0.00056
0.001
0.0022
0.0047
0.012
Please refer to Page 8 for important information regarding these performance curves
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
Type 718P/719P, Orange Drop®, High Voltage Polypropylene Film/Foil
Voltage (RMS)
10000
Type 719P RMS Voltage vs. Frequency at 70°C ambient
1500
1000
100
10
100
10000
0.001
Voltage (RMS)
1000
Frequency (KHz)
0.0018
0.0033
0.0068
0.012
Type 719P RMS Voltage vs. Frequency at 85°C ambient
1500
1000
100
10
100
10000
0.001
Voltage (RMS)
1000
Frequency (KHz)
0.0018
0.0033
0.0068
0.012
Type 719P RMS Voltage vs. Frequency at 95°C ambient
1500
1000
100
10
100
1000
Frequency (KHz)
0.001
0.0018
0.0033
0.0068
0.012
Please refer to Page 8 for important information regarding these performance curves
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
Type 718P/719P, Orange Drop®, High Voltage Polypropylene Film/Foil
RMS Voltage vs. Frequency
Performance Curve Data
And Thermal Considerations
With today’s demanding and complex applications it is more critical than ever t o have a co mprehensive
understanding of therm al issues. B ecause thermal environments vary considerably, our app roach is to
provide RMS voltage versus freque ncy performance curves based on th e following parameters to be
utilized as a guideline in specifying the appropriate part:
•
•
•
•
+70°C, +85°C, and +95°C ambient temperatures
Pure convection cooling
All heat dissipation from the lead wire is added to the capacitor
Increased lead wire dissipation at high frequencies is included [skin effect losses]
The ambient temperature is the air temperature adjacent to the capacitor within the application enclosure
at the highest exterior temperature permitted by the end user. Since the maximum allowable temperature
for polypropylene is +1 05°C, our performance cur ves are base d on a pow er level that raises t he
temperature +20°C from ambient to the hot spot within the capacitor.
We realize that the environment assu med by our performance curves is highly unlikely to represent that
of a real application. We also un derstand that a "pure co nvection" environment is also highl y
improbable. There will almost always be a circuit board and other adjacent components that will impede
convection based air circulation, and the capac
itor under dis cussion will not be the only “heat
generating” device present! Beca use of all this " variability" our performance curves are cal culated
conservatively.
Considerations:
The application power level can be compared to the performance curves at a given frequency by the
following calculation:
(Actual VAC/Rated VAC)2 = Power level relative to performance curve power
Temperature rise is directly related to power; power is related to the voltage squared.
Since the maximum allowable temperature for pol ypropylene is +105 °C we strongl y recommend that
you check t he case temperature of the capacitor un der worst case conditions . The capacitor surface
temperature should be less than:
Capacitor surface temperature < 0.67 * (105 – T ambient) + T ambient
Please contact us for more detailed information and methods to optimize allowable voltage in your
electrical/thermal environment. We always welcome an engineer-to-engineer discussion of your
particular situation!
CDE Cornell Dubilier • 1605 E. Rodney French Blvd. • New Bedford, MA 02744 • Phone: (508)996-8561 • Fax: (508)996-3830
AC
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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
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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.
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