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Partnumber	Manufacturer	Quantity	Availability
CN2B8TE101J Manufactured to type RM Standards
CN2B8TE101J		1700	In Stock
Description and Introduction Manufactured to type RM Standards The manufacturer specifications for part CN2B8TE101J are as follows: - Manufacturer: AVX Corporation - Part Number: CN2B8TE101J - Capacitance: 100 pF (picofarads) - Tolerance: ±5% - Voltage Rating: 200 V - Dielectric Material: C0G (NP0) - Temperature Coefficient: 0 ±30 ppm/°C - Termination: Leaded - Package/Case: Radial - Operating Temperature Range: -55°C to +125°C - Features: High stability, low loss, suitable for high-frequency applications This information is based on AVX Corporation's datasheet for the CN2B8TE101J capacitor.
Application Scenarios & Design Considerations Manufactured to type RM Standards # Technical Documentation: CN2B8TE101J Multilayer Ceramic Capacitor (MLCC) ## 1. Application Scenarios ### Typical Use Cases The CN2B8TE101J is a 100pF ±5% tolerance, 50V rated multilayer ceramic capacitor with X7R dielectric characteristics, making it suitable for various electronic applications requiring stable capacitance under varying environmental conditions. Primary Applications: - DC Blocking/Coupling Circuits : Used in audio/video signal paths and RF circuits where stable capacitance is required across temperature variations - Power Supply Decoupling : Effective for high-frequency noise suppression in power distribution networks - Timing Circuits : Suitable for oscillators and timing applications where moderate temperature stability is sufficient - Filter Networks : Implements low-pass, high-pass, and band-pass filters in communication systems ### Industry Applications - Consumer Electronics : Smartphones, tablets, and wearables for power management and signal conditioning - Automotive Electronics : Engine control units, infotainment systems (non-safety critical applications) - Industrial Control Systems : PLCs, motor drives, and sensor interfaces - Telecommunications : Base stations, routers, and network equipment - Medical Devices : Patient monitoring equipment and diagnostic instruments ### Practical Advantages and Limitations Advantages: - Temperature Stability : X7R dielectric provides ±15% capacitance variation from -55°C to +125°C - High Voltage Rating : 50V DC rating suitable for various circuit configurations - Small Footprint : 0805 case size (2.0mm × 1.25mm) enables high-density PCB designs - Low ESR : Excellent high-frequency performance for decoupling applications - RoHS Compliant : Meets environmental regulations for lead-free manufacturing Limitations: - DC Bias Effect : Capacitance decreases with applied DC voltage (typical of X7R dielectric) - Aging Characteristics : X7R capacitors exhibit capacitance drift over time (approximately 2.5% per decade hour) - Microphonic Effects : Susceptible to mechanical vibration-induced capacitance changes - Limited Precision : ±5% tolerance may be insufficient for precision analog applications ## 2. Design Considerations ### Common Design Pitfalls and Solutions Pitfall 1: Voltage Derating Oversight - Issue : Operating near maximum rated voltage without considering DC bias effects - Solution : Derate operating voltage to 70-80% of rated voltage for reliable long-term operation Pitfall 2: Thermal Management Neglect - Issue : Placing near heat-generating components without thermal analysis - Solution : Maintain minimum 2mm clearance from power components and implement thermal relief patterns Pitfall 3: Mechanical Stress - Issue : PCB flexure causing ceramic cracking - Solution : Orient capacitor perpendicular to board bending axis and avoid placement near board edges ### Compatibility Issues with Other Components Positive Compatibility: - Digital ICs : Excellent compatibility with microcontrollers, FPGAs, and memory devices - Analog Components : Works well with op-amps, comparators, and data converters - Power Management ICs : Compatible with LDOs, switching regulators, and power controllers Consideration Areas: - High-Frequency Circuits : May require additional high-Q capacitors for critical RF applications - Precision References : Consider C0G/NP0 capacitors for voltage references requiring ultra-stable capacitance - High-Current Applications : May need parallel configurations or alternative technologies for bulk decoupling ### PCB Layout Recommendations Placement Strategy: - Position decoupling capacitors within 2mm of IC power pins - Use multiple vias for low-inductance connections to power planes - Implement symmetric placement for differential pairs
Partnumber	Manufacturer	Quantity	Availability
CN2B8TE101J	KOA	1700	In Stock
Description and Introduction Manufactured to type RM Standards The part CN2B8TE101J is manufactured by KOA Speer Electronics. Specifications: - Type: Thick Film Chip Resistor - Resistance Value: 100Ω (101 = 10 x 10^1 = 100Ω) - Tolerance: ±5% (J) - Power Rating: 0.125W (1/8W) - Operating Temperature Range: -55°C to +155°C - Package/Size: 0805 (2.0mm x 1.25mm) - Termination: Standard SMD (Silver-Plated Copper) - Features: Lead-free, RoHS compliant This resistor is commonly used in general-purpose electronic circuits.
Application Scenarios & Design Considerations Manufactured to type RM Standards # Technical Documentation: CN2B8TE101J Multilayer Ceramic Capacitor (MLCC) Manufacturer : KOA ## 1. Application Scenarios ### Typical Use Cases The CN2B8TE101J is a 100pF ±5% tolerance, 50V X7R dielectric multilayer ceramic capacitor designed for general-purpose applications requiring stable performance across temperature variations. Typical implementations include: - DC Blocking/AC Coupling : Used in RF and analog signal paths to block DC offset while passing AC signals - Bypass/Decoupling : Provides local charge storage near IC power pins to suppress high-frequency noise - Filter Networks : Implements low-pass, high-pass, and band-pass filter configurations in conjunction with resistors/inductors - Timing Circuits : Functions in RC oscillators and timing applications where moderate temperature stability is required - Impedance Matching : Compensates for parasitic inductance in high-frequency circuits ### Industry Applications - Consumer Electronics : Smartphones, tablets, wearables (power management, RF modules) - Telecommunications : Base stations, networking equipment (signal conditioning, filtering) - Automotive Electronics : Infotainment systems, ADAS sensors (non-safety-critical circuits) - Industrial Control : PLCs, sensor interfaces, power supplies - Medical Devices : Patient monitoring equipment, diagnostic instruments (signal processing stages) ### Practical Advantages and Limitations Advantages: - Temperature Stability : X7R dielectric maintains ±15% capacitance variation from -55°C to +125°C - Compact Size : 0805 package (2.0×1.25mm) enables high-density PCB layouts - Low ESR/ESL : Suitable for high-frequency applications up to several hundred MHz - RoHS Compliance : Environmentally friendly construction - Cost-Effective : Economical solution for bulk deployment Limitations: - DC Bias Effect : Capacitance decreases with applied DC voltage (typical of Class II ceramics) - Microphonics : Mechanical stress can generate audible noise or capacitance variation - Aging Characteristics : X7R dielectric exhibits approximately 2.5% capacitance decay per decade hour - Limited Precision : ±5% tolerance may be insufficient for precision analog applications - Voltage Derating : Recommended to operate at ≤80% of rated voltage for enhanced reliability ## 2. Design Considerations ### Common Design Pitfalls and Solutions Pitfall 1: DC Bias-Induced Capacitance Loss - Issue : Actual capacitance under DC bias can be 20-50% lower than nominal value - Solution : Select higher voltage rating or use DC bias compensation in circuit calculations Pitfall 2: Mechanical Stress Cracking - Issue : Board flexure during assembly or operation can cause micro-cracks - Solution : - Orient capacitors parallel to board bending axis - Maintain minimum 1mm clearance from board edges - Use stress-relief vias in high-stress areas Pitfall 3: Acoustic Noise Generation - Issue : Piezoelectric effects can produce audible buzzing in power circuits - Solution : Implement parallel combinations of different capacitor values/types ### Compatibility Issues with Other Components With Active Devices: - Digital ICs : Ensure adequate decoupling for fast switching transients - Analog ICs : Verify capacitance stability meets precision requirements - RF Components : Consider parasitic effects at operating frequencies With Passive Components: - Tantalum Capacitors : Can complement MLCCs by providing stable bulk capacitance - Inductors : Be aware of potential resonance issues in LC tank circuits - Resistors : RC time constant calculations should account for actual capacitance under bias ### PCB Layout Recommendations Placement Strategy

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