Ultra-Miniature 01005 Size Accu-P
®
Thin-Film RF Microwave Capacitor
ACCU-P
®
TECHNOLOGY
The use of silicon oxide, a very low - loss dielectric material, in conjunction with
highly conductive electrode metals, results in low ESR and high Q. These high -
frequency characteristics change at a slower rate with increasing frequency than
for ceramic microwave capacitors.
ACCU-P
®
meets the fast - growing demand for low - loss (high - Q) capacitors for
use in surface mount technology, especially for the wireless communications
market at frequencies up to and above 5.8GHz.
ACCU-P
®
is currently unique in its ability to offer very low capacitance values (0.05
pF) and ultra tight capacitance tolerances (±0.01 pF).
APPLICATIONS
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FEATURES
Ultra Miniature standard 01005 chip size.
Ultra tight capacitance tolerances (±0.01pF).
Low ESR and high Q at VHF, UHF and microwave frequencies.
TC ±30, ±60ppm/°C.
Nickel/Solder - coated terminations provide excellent solderability and leach
resistance.
• High insulation resistance: IR ≥ 10
10
Ohm.
• Orientation provides high SRF uniformity.
• Repeatable C
EFF
, ESR and Q vs. Frequency parameters, both lot to lot and
within lots, for increased production yields.
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RF Modules
Mobile communications
Satellite TV
Global positioning systems
Filters
VCO’s
Matching networks
HOW TO ORDER
C005
Series
Y
Voltage
Y = 16V
X
Temperature
Coefficient
XXX
Capacitance
(pF)
X
Tolerance
B
Accu-P
S
Lead Free
Termination
TR
Packaging
Code
5000 pc reel
TR/10K = 10,000 pc reel
TR/20K = 20,000 pc reel
P/N Example: C 0 0 5 Y K 1 R 0 A B S T R
QUALITY AND RELIABILITY
Finished parts are tested for standard electrical parameters and visual / mechanical characteristics.
Each production lot is 100%
evaluated for:
• Capacitance
• Q Factor
• DWV at 12.5xV
RATED
Each production lot is evaluated
on a sample basis for:
• Dimensions
• Insulation Resistance
• Breakdown Voltage
• ESR
• Solderability
In addition, production is periodically
evaluated for:
• Mechanical stability
• Endurance (Life)
• Temperature Coefficient
• Accelerated Damp Heat Load (THB)
• Temperature Cycling
1