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Purpose. To familiarize users with the basic properties of Ceramic Capacitors and To demonstrate
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1. Capacitors for RF ApplicationsMichael P. Busse Vice President Dielectric Laboratories, Inc
2777 Rte. 20 East
Cazenovia, NY 13035
315-655-8710
315-655-8179
www.dilabs.com
2. Purpose To familiarize users with the basic properties of Ceramic Capacitors and
To demonstrate “CapCad”, a modeling and selection methodology.
3. Outline Application of Capacitors
Capacitor Structures
Terminology and Definitions
Electrical Properties
Physical Characteristics
Mounting Considerations
Capacitor Models
CapCad
Conclusions
4. Applications Ceramic Capacitor technology covers a wide range of product types, based upon a multitude of dielectric materials and physical configurations. All are basically storage devices for electrical energy which find use in varied applications in the electronics industry including the following:
Discharge of Stored Energy
Blockage of DC Current
Coupling of Circuit Components
By-Passing of an AC Signal
Frequency Discrimination
Transient Voltage and Arc Suppression
5. Structures Single Layer SLC
Two plates separated by a dielectric.
Simple to fabricate
Area/thickness limited
Cap Ranges of .05 pf to ?2000 pf Multi Layer MLC
A parallel array of capacitors in a common structure.
High C/V can be achieved
More complex to manufacture
Cap Ranges of .10 PF to ?5100 pf
6. Definitions Capacitor – A device for storing electrical energy. The simplest form is two separate parallel plates with a non-conducting (dielectric) substance between them. The amount of energy that can be stored depends on the Area (A), Dielectric Constant (K), and the Thickness (t) of the dielectric. C=KA(.2246)/t (.2246 is a conversion factor in English, for Metric 0.0884). The area can be manipulated by the structure.
Capacitance – A unit of measure describing the electrical storage capacity of a capacitor. Capacitance is measured in farads, microfarad (millionth of a farad), nanofarad (billionth of a farad or 10-9), or in picofarad (trillionth of a farad or 10-12).
7. Definitions Dielectric – Any material which has the ability to store electrical energy. In a DLI capacitor, it is non-conducting ceramic between the plates. In general, capacitors can utilize any dielectrics such as air, or naturally occurring dielectrics such as mica.
Classes of Dielectrics – Two basic groups (Class 1 and Class 2) are used in the manufacture of ceramic chip capacitors.
Class 1 dielectrics display the most stable characteristics of frequency, voltage, time and temperature coefficients (TC). TC is expressed as a % of capacitance change from a reference or parts per million per degree C (ppm/şC).
Class 2 dielectrics offer much higher dielectric constants but with less stable properties with temperature, voltage, frequency, and time. TC is expressed as a % change from a reference (+- 15% over some range of temperature)
8. Common Dielectrics
9. Definitions Dielectric Constant (K) – The calculated measurement of a material which defines its capacity to store electrical energy. A higher “K” signifies a higher capacitance per unit at the test temperature.
Electrode – The metallic plates that are the top and bottom of a single dielectric layer. In a SLC (Single Layer Capacitor), the outer metallized plates form the electrodes. In an MLC (Multi Layer Capacitor), the metal print that alternates between the ceramic layers form the electrodes.
10. Electrical Properties IR = Insulation Resistance
DC Resistance which is a function of the dielectric. It is the ability of the capacitor to oppose the flow of electricity at a given direct voltage.
DF = Dissipation Factor
Loss Tangent is the ratio of energy “used up” by a working capacitor divided by the amount of energy stored over a definite period of time. It is a measure of the capacitors operating efficiency.
ESR = Equivalent Series Resistance
The effective resistance to the passage of RF energy
11. Electrical Properties Dielectric Withstanding Voltage (DWV) is a measurement of the electrical strength of the dielectric at 2˝ times the rated voltage.
Temperature Coefficient (TC) is a measure of how the capacitance changes with temperature.
Tolerance is the amount of variation allowed from a target value. It is normally expressed as an Alpha character, for example a “J’ tolerance would be + 5%.
Voltage Conditioning is a test that applies heat and voltage to the parts for a set number of hours to accelerate failure mechanisms and identify rejects.
12. Q Q = Quality Factor is a numeric expression of the relative loss of a capacitor. Most commonly described as the storage factor of a capacitor and is the reciprocal of the Dissipation Factor.
Q is defined as
Q=1/2pFC(ESR)
F=frequency
C=capacitance
For any given capacitance at a given frequency, the highest Q part will have the lowest ESR
13. Physical Considerations Size equates to Voltage Rating
Larger case sizes have greater voltage capabilities
Smaller case sizes have higher series resonance characteristics
The separation between the internal electrodes dominates voltage rating
The dielectric has to be an insulator
The dielectric will determine the properties of the capacitor.
14. Mounting Considerations
15. Capacitor Models Reasonable prediction to the first series resonance
Predicted behavior above series resonance doesn’t match observed results.
16. Transmission Line Model Treats the capacitor as an open circuited transmission Line
Results closely match measured data
17. CapCad V3 Modeling software to simplify the selection of the right capacitor.
Easy to use graphical interface
Export and Import s2p files
Smith chart graphing
Includes Spice Modeling
19. Conclusion Capacitors present more of a challenge to selection than just the capacitance
The Physical as well as the Electrical properties must be taken into consideration
Proper Modeling Tools can simplify the selection
Thank You !
21. Company was established in 1974
Cazenovia, NY, USA
Company Headquarters
Manufacturing Facility
Design Center
Other Locations :
US Sales Offices - California and Connecticut
Asia Sales & Distribution Center – open 3Q02, Shanghai
Inspection and Packaging – contractor qualified, Bangkok
Board and Package Assembly – contractor 3Q02, Taipei
Europe Sales Office – under development
22. World’s Most Respected Name
World’s Broadest Offering
DiCap® - T-cap - Border Cap
Bar Cap - Gap Cap - Bi Cap
Milli-Cap® - Broadband Solution As “The Ideal Capacitor”
23. Common Case Sizes 0603 up to 3838
High Q Ceramic
High-Fire Reliability
Newly Introduced –
Ultra-Low ESR C07
“Lead-Free” MLC
0402 Case Size Under Development
RF Power Performance Line (C22 and C40)
Opti-Cap® - Broadband DC Block from <20 KHz to 60+ GHz
24. Enhanced High Performance, Flexible Process Capabilities
Broad Range of Ceramics and Metal Systems
Traditional Alumina, Alumina Nitride, and Fused Silica
Proprietary higher K, Class I dielectrics
Titanates and Zirconias
Expert with all Common Metallization Systems
Organizational Focus with Product Team
Products Include –
BP Filters, Frequency Equalizers, Hybrid Circuits and Components
Bias Filter & Self Bias Networks, Heat Sinks/Stand-Offs