ATC’s 800 A Series offers superb performance in demanding high RF
power applications requiring consistent and reliable operation. The
combination of highly conductive metal electrode systems, optimized
case geometries, and proprietary dielectrics, yields the lowest ESR.
ATC’s new NPO low loss rugged dielectrics are designed to provide su-
perior heat transfer in high RF power applications. Ultra-low ESR and
superior thermal performance insure that the 800 A Series products
are your best choice for high RF power applications from UHF through
microwave frequencies.
Typical applications: UHF and Microwave Communications Systems,
Wireless Communications, Public Safety Radio, Telecom, WiMAX, and
Satellite Systems.
Typical circuit applications: High RF Power Filter Networks, Combiners,
Couplers, Matching Networks, Output Coupling, Antenna Coupling, and
DC Blocking and Bypassing.
ELECTRICAL AND MECHANICAL
SPECIFICATIONS
QUALITY FACTOR (Q):
2000 @ 1 MHz
TEMPERATURE COEFFICIENT OF CAPACITANCE (TCC):
0 ±30 PPM/°C (-55°C to +125°C)
INSULATION RESISTANCE (IR):
0.1 pF to 100 pF:
10
5
Megohms min. @ +25°C at rated WVDC
10
4
Megohms min. @ +125°C at rated WVDC
WORKING VOLTAGE (WVDC):
See Capacitance Values Table, page 2
DIELECTRIC WITHSTANDING VOLTAGE (DWV):
Case A: 250% of rated WVDC for 5 secs. (625 VDC)
RETRACE:
Less than ±(0.02% or 0.02 pF), whichever is greater
ENVIRONMENTAL TESTS
ATC 800 A Series Capacitors are designed and manufactured to
meet and exceed the requirements of EIA-198, MIL-PRF-55681 and
MIL-PRF-123.
THERMAL SHOCK:
MIL-STD-202, Method 107, Condition A
MOISTURE RESISTANCE:
MIL-STD-202, Method 106
LOW VOLTAGE HUMIDITY:
MIL-STD-202, Method 103, Condition A, with 1.5 Volts DC applied
while subjected to an environment of 85°C with 85% relative humid-
ity for 240 hours min.
LIFE TEST:
MIL-STD-202, Method 108, for 2000 hours, at 125°C
200% WVDC applied
AGING EFFECTS:
None
PIEZOELECTRIC EFFECTS:
None
(No capacitance variation with voltage or pressure)
CAPACITANCE DRIFT:
±(0.02% or 0.02 pF), whichever is greater
OPERATING TEMPERATURE RANGE:
From -55°C to +125°C (No derating of working voltage)
TERMINATION STYLE:
RoHS Compliant and Solder Plate
See Mechanical Configurations, page 3
TERMINAL STRENGTH:
Terminations for chips withstand a pull of 5
lbs. min., 10 lbs. typical, for 5 seconds in direction perpendicular to
the termination surface of the capacitor. Test per MIL-STD-202,
method 211.
ISO 9001
REGISTERED
COMPANY
ATC # 001-1032 Rev. I, 6/13
ATC 800 A Capacitance Values
CAP.
CODE
0R1
0R2
0R3
0R4
0R5
0R6
0R7
0R8
0R9
1R0
1R1
1R2
1R3
1R4
1R5
1R6
1R7
1R8
1R9
2R0
2R1
CAP.
(pF)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
2.0
2.1
TOL.
B
B, C
RATED WVDC
CAP.
CODE
2R2
2R4
2R7
3R0
3R3
3R6
3R9
4R3
4R7
5R1
5R6
6R2
6R8
7R5
8R2
9R1
100
110
120
130
150
CAP.
(pF)
2.2
2.4
2.7
3.0
3.3
3.6
3.9
4.3
4.7
5.1
5.6
6.2
6.8
7.5
8.2
9.1
10
11
12
13
15
TOL.
RATED WVDC
CAP.
CODE
160
180
200
220
240
270
300
330
360
390
430
470
510
560
620
680
750
820
910
101
CAP.
(pF)
16
18
20
22
24
27
30
33
36
39
43
47
51
56
62
68
75
82
91
100
TOL.
RATED WVDC
B, C,
D
250
B, C,
D
250
B, C,
J, K,
M
F, G, J,
K, M
250
F, G, J,
K, M
VRMS = 0.707 X WVDC
SPECIAL VALUES, TOLERANCES, HIGHER WVDC AND MATCHING AVAILABLE. PLEASE CONSULT FACTORY.
CAPACITANCE TOLERANCE
Code
B
C
D
F
G
J
K
M
Tol.
±0.1 pF ±0.25 pF ±0.5 pF ±1% ±2% ±5% ±10% ±20%
ATC PART NUMBER CODE
ATC800 A 10 0 J T
Series
Case Size
Capacitance Code:
First 2 significant digits for capacitance.
R=Decimal Point
Indicates number of zeros following digits
of capacitance in picofarads except for decimal values.
Capacitance Tolerance
Termination Code
Laser Marking
WVDC
The above part number refers to a 800 A Series (case size A) 10 pF capacitor,
J tolerance (±5%), 150 WVDC, with T termination (Tin Plated over Nickel Barrier, RoHS Compliant), laser marking and tape and reel packaging.
ATC accepts orders for our parts using designations
with
or
without
the
“ATC” prefix. Both methods of defining the part number are equivalent,
i.e., part numbers referenced with the “ATC” prefix are interchangeable to
parts referenced without the “ATC” prefix. Customers arefree to use either
in specifying or procuring parts from American Technical Ceramics.
250 X
T
Packaging
T - Tape & Reel: 500 and 4000 pc. qty. std.*
TV - Vertical Orientation of Product,
Tape & Reel: 500 and 4000 pc. qty. std.*
I - Special Packaging. Consult Factory.
*
Consult ATC for other quantities
For additional information and catalogs contact your ATC
representative or call direct at (+1-631) 622-4700.
Consult factory for additional performance data.
C E R A M I C S
ATC Asia
sales@atceramics-asia.com
A M E R I C A N
ATC North America
sales@atceramics.com
T E C H N I C A L
ATC Europe
saleseur@atceramics.com
2
w w w.a t c er a m ic s .co m
ATC 800 A Capacitors: Mechanical Configurations
ATC
ATC
SERIES
TERM.
& CASE
CODE
SIZE
OUTLINES
CASE SIZE
& TYPE
W/T IS A
TERMINATION SURFACE
Y
BODY DIMENSIONS
Inches (mm)
LENGTH
(L)
WIDTH
(W)
THICKNESS
(T)
OVERLAP
(Y)
LEAD AND TERMINATION
DIMENSIONS AND MATERIALS
MATERIAL
800A
T
A
Solderable
Nickel Barrier
W
L
T
.055
+.015 -.010
.
055 ±.015 .057 (1.45)
(1.40
max.
(1.40 ±0.38)
+0.38 -0.25)
.055
.
055 ±.015
+.015 -.010
.057 (1.45)
(1.40
(1.40
max.
±0.38)
+0.38 -0.25)
.010
+.010 -.005
(0.25
+0.25 -0.13)
.010
+.010 -.005
(0.25
+0.25 -0.13)
RoHS Compliant
Tin Plated over
Nickel Barrier Termination
Y
800A
W
A
Solder Plate
W
L
T
Tin /Lead Solder Plated over
Nickel Barrier Termination
ATC 800 A Non-Magnetic Capacitors: Mechanical Configurations
ATC
ATC
SERIES
TERM.
& CASE
CODE
SIZE
OUTLINES
CASE SIZE
& TYPE
W/T IS A
TERMINATION SURFACE
Y
W
L
T
BODY DIMENSIONS
Inches (mm)
LENGTH
(L)
WIDTH
(W)
THICKNESS
(T)
OVERLAP
(Y)
LEAD AND TERMINATION
DIMENSIONS AND MATERIALS
MATERIAL
800A
TN
A
Non-Mag
Solderable
Barrier
.055
+.015 -.010
.
055 ±.015 .057 (1.45)
(1.40
max.
(1.40 ±0.38)
+0.38 -0.25)
.010
+.010 -.005
(0.25
+0.25 -0.13)
RoHS Compliant
Tin Plated over
Non-Magnetic Barrier Termination
Suggested Mounting Pad Dimensions
L
T
0
10
W
L
T
W
Horizontal
Electrode Orientation
B
A
C
D
Vertical
Electrode Orientation
B
Vertical Mount
Horizontal Mount
Pad Size
Normal
Normal
Case A
High Density
A Min.
.070
.050
.080
.060
B Min.
.050
.030
.050
.030
C Min.
.030
.030
.030
.030
D Min.
.090
.090
.130
.130
A M E R I C A N
ATC North America
sales@atceramics.com
100
High Density
Dimensions are in inches.
T E C H N I C A L
ATC Europe
saleseur@atceramics.com
C E R A M I C S
ATC Asia
sales@atceramics-asia.com
w w w.a t c er a m ic s .co m
3
ATC 800 A Performance Data
1.00
800 A ESR vs. Frequency
ESR (Ohms)
0.10
800A - 1.0 pF
800A - 3.3 pF
800A - 10 pF
800A - 33 pF
800A - 100 pF
0.01
100
1000
10000
Frequency (MHz)
800 A FSR & FPR vs. Capacitance
100
Frequency (GHz)
Vert Fpr
Horiz Fpr
10
Vert Fsr
Horiz Fsr
(Typical)
1
1
10
100
Capacitance (pF)
ATC 800 A Series Data Sheet Test Condition Description
Capacitors horizontally mounted in series microstrip configuration on 23.3-mil thick Rogers RO4350
®
softboard, 52-mils wide 1/2 oz. Cu traces.
FSR
= lowest frequency at which S11 response, referenced at capacitor edge, crosses real axis on Smith Chart.
FPR
= lowest frequency at which there is a notch in S21 magnitude response.
A M E R I C A N
ATC North America
sales@atceramics.com
T E C H N I C A L
ATC Europe
saleseur@atceramics.com
C E R A M I C S
ATC Asia
sales@atceramics-asia.com
4
w w w.a t c er a m ic s .co m
ATC 800 A Performance Data
800A Capacitance Change vs. Temperature
1
TCC= 0 ±30 PPM/C
0.8
0.6
0.4
% Change in Capacitance
0.2
0
-0.2
-0.4
-0.6
-0.8
-1
-55
-35
-15
5
25
45
65
85
105
125
Temperature (Degrees C)
Sales of ATC products are subject to the terms and conditions contained in American Technical Ceramics Corp. Terms and Conditions of Sale (ATC document #001-992 Rev. B; 12/05). Copies
of these terms and conditions will be provided upon request. They may also be viewed on ATC's website at www.atceramics.com/productfinder/default.asp. Click on the link for Terms and
Conditions of Sale.
ATC has made every effort to have this information as accurate as possible. However, no responsibility is assumed by ATC for its use, nor for any infringements of rights of third parties which
may result from its use. ATC reserves the right to revise the content or modify its product without prior notice.
This article introduces how to configure the Qt runtime environment on an embedded Linux development board and perform a Qt program run test.
1 tslib compilation
tslib has been used before when testin...
[p=35, null, left][color=#555555]If the final data is the difference between the two data, we can use the ADC's Difference working mode[/color][/p][code]#include#include#include "inc/hw_memmap.h" #inc...
Now I can display Chinese characters, fixed characters and numbers. There is a problem that when I display the collected data, I can only display the first data, and it will not change afterwards. Wha...
1. Equipment Overview
Shell-and-tube heat exchangers are a common heat exchange device used in chemical evaporation and heating equipment. Currently, the tubesheets of shell-and-tube heat exch...[Details]
How do you know if a machine is operating properly? The answer: by leveraging deep learning to detect anomalies in routine vibration data from industrial machines. Anomaly detection has many uses, ...[Details]
Abstract:
With the increasing complexity of smart vehicle electrical and electronic architectures, the full lifecycle management of vehicle electronic control components faces multiple challe...[Details]
Limited vocabulary recognition
According to the number of characters, words or short sentences in the vocabulary, it can be roughly divided into: less than 100 is small vocabulary; 100-1000 is...[Details]
Based on a survey of more than ten intelligent robot companies, this article sorts out and analyzes the current development status of the intelligent industry and the challenges and differences it ...[Details]
On August 20th, Tiantai Robotics Co., Ltd., along with strategic partners including Shandong Future Robotics Technology Co., Ltd., Shandong Future Data Technology Co., Ltd., and Gangzai Robotics Gr...[Details]
Since its invention in the mid-1940s, the microwave oven has evolved from a humble beginning to commercial use, entering homes in the 1960s and rapidly gaining popularity. Its basic functionality a...[Details]
Keysight Technologies is combining its electromagnetic simulator with Synopsys' AI-driven RF design migration flow to create an integrated design flow for migrating from TSMC's N6RF+ process techno...[Details]
Plessey Semiconductors has been acquired by Haylo Labs, which was established in March last year with a $100 million, five-year loan from Chinese technology company Goertek.
Haylo Labs w...[Details]
According to Nikkei, a survey found that global electric vehicle battery supply is expected to reach more than three times the required quantity due to
cooling
demand for electric vehicles,...[Details]
Tiantai Robot's official Weibo account announced on the evening of August 20 that Tiantai Robot Co., Ltd., together with strategic partners including Shandong Future Robot Technology Co., Ltd., Sha...[Details]
As the range of electric vehicles continues to increase, driving electric vehicles for long-distance travel has become a trend. For high-speed travel, how much impact will high-speed driving of ele...[Details]
With growing environmental awareness, the continuous improvement of three-electric technology and the increasing deployment of infrastructure such as charging stations, the electrification of new e...[Details]
The range of an electric vehicle is crucial to the driving experience, and range anxiety is a common headache when driving an electric vehicle. Although the latest electric vehicles can achieve a r...[Details]
Charging is an essential topic for electric vehicles. Batteries are a core component of new energy vehicles. So, what's the optimal charge level for electric vehicles? Based on current battery tech...[Details]
/2017101067795_pdf/pg_0001.png)
FPGA/CPLD
京公网安备 11010802033920号
EEWORLD/2017101067795_pdf/1.png)
/2017101067795_pdf/2.png)
/2017101067795_pdf/3.png)
/2017101067795_pdf/4.png)
/2017101067795_pdf/5.png)
/2017101067795_pdf/pg_0002.png)
/2017101067795_pdf/pg_0003.png)
/2017101067795_pdf/pg_0004.png)
/2017101067795_pdf/pg_0005.png)
