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CMR2-10 TR13
Product Overview
Category
The CMR2-10 TR13 belongs to the category of electronic components and specifically falls under the classification of capacitors.
Use
It is primarily used for energy storage and power conditioning in various electronic circuits and devices.
Characteristics
- Capacitance: 10 microfarads
- Voltage Rating: 25 volts
- Dielectric Material: Tantalum
- Mounting Style: Through Hole
- Operating Temperature Range: -55°C to +125°C
Package
The CMR2-10 TR13 is typically available in a standard radial leaded package.
Essence
This component serves as a crucial element in stabilizing and regulating electrical currents within electronic systems.
Packaging/Quantity
The CMR2-10 TR13 is commonly packaged in reels or trays, with quantities varying based on manufacturer specifications.
Specifications
- Capacitance: 10µF
- Voltage Rating: 25V
- Tolerance: ±20%
- ESR (Equivalent Series Resistance): 0.6Ω
- Case Size: D (5.3mm x 5.7mm)
Detailed Pin Configuration
The CMR2-10 TR13 features a standard radial lead configuration with two leads emerging from the bottom of the capacitor.
Functional Features
- High capacitance in a compact form factor
- Low equivalent series resistance for efficient power delivery
- Stable performance across a wide temperature range
- Reliable tantalum dielectric material for long-term operation
Advantages
- Small size and high capacitance make it suitable for space-constrained applications
- Low ESR enhances power efficiency and reduces heat generation
- Tantalum construction provides excellent stability and reliability
Disadvantages
- Higher cost compared to some alternative capacitor types
- Vulnerable to damage from overvoltage conditions
Working Principles
The CMR2-10 TR13 operates based on the principles of energy storage and charge/discharge cycles within the tantalum capacitor structure. When connected in a circuit, it stores and releases electrical energy as needed, contributing to the stabilization and filtering of the overall system.
Detailed Application Field Plans
The CMR2-10 TR13 finds extensive use in various electronic devices and systems, including: - Power supply units - Audio amplifiers - Signal processing circuits - Industrial control systems - Automotive electronics
Detailed and Complete Alternative Models
Some alternative models to the CMR2-10 TR13 include: - KEMET T491 Series - AVX TAJ Series - Panasonic ECJ Series - Vishay Sprague 293D Series
In conclusion, the CMR2-10 TR13 capacitor offers high capacitance and reliable performance, making it a valuable component in numerous electronic applications.
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Listen Sie 10 häufige Fragen und Antworten im Zusammenhang mit der Anwendung von CMR2-10 TR13 in technischen Lösungen auf
What is CMR2-10 TR13?
- CMR2-10 TR13 is a technical regulation that specifies requirements for the design and construction of pressure vessels.
What types of pressure vessels does CMR2-10 TR13 apply to?
- CMR2-10 TR13 applies to various types of pressure vessels, including storage tanks, boilers, and other containers used to store or transport compressed gases or liquids under pressure.
What are the key design requirements outlined in CMR2-10 TR13?
- The regulation outlines design requirements related to materials, thickness, welding, and testing procedures to ensure the safety and integrity of pressure vessels.
How does CMR2-10 TR13 address quality control during the manufacturing process?
- CMR2-10 TR13 includes provisions for quality control measures such as non-destructive testing, material traceability, and documentation to ensure compliance with design and construction requirements.
Are there specific inspection and testing procedures mandated by CMR2-10 TR13?
- Yes, the regulation specifies requirements for hydrostatic testing, radiographic examination, and other inspection procedures to verify the structural integrity of pressure vessels.
Does CMR2-10 TR13 require certification or approval from regulatory authorities?
- Yes, pressure vessels designed and constructed in accordance with CMR2-10 TR13 typically require certification or approval from authorized regulatory bodies to ensure compliance with safety standards.
What are the consequences of non-compliance with CMR2-10 TR13?
- Non-compliance with CMR2-10 TR13 can result in safety hazards, regulatory penalties, and potential legal liabilities for manufacturers and operators of pressure vessels.
How does CMR2-10 TR13 address the issue of pressure vessel maintenance and repair?
- The regulation may include guidelines for periodic inspections, maintenance procedures, and repair requirements to ensure the ongoing safety and reliability of pressure vessels.
Are there any specific considerations for transporting pressure vessels in accordance with CMR2-10 TR13?
- Depending on the application, CMR2-10 TR13 may include requirements for securing, handling, and transporting pressure vessels to prevent damage and ensure safety during transit.
Where can I find additional resources or guidance on interpreting and implementing CMR2-10 TR13?
- Additional resources, such as industry standards, technical publications, and regulatory guidance documents, can provide further insights into the application of CMR2-10 TR13 in technical solutions.