PMT3(310)25004F
Product Overview
- Category: Photomultiplier Tube (PMT)
- Use: Light detection and measurement
- Characteristics: High sensitivity, low noise, wide dynamic range
- Package: Hermetic metal package
- Essence: Converts light into electrical signals
- Packaging/Quantity: Single unit packaging
Specifications
- Type: Photomultiplier Tube
- Model: PMT3(310)25004F
- Spectral Response Range: 185-650 nm
- Cathode Luminous Sensitivity: 50 mA/lm
- Anode Dark Current: 100 nA
- Gain: 1x10^6
- Operating Voltage: 1250 V
- Operating Temperature: -40°C to +60°C
Detailed Pin Configuration
- Pin 1: Cathode
- Pin 2: Anode
- Pin 3: Dynode 1
- Pin 4: Dynode 2
- Pin 5: Dynode 3
- Pin 6: Dynode 4
- Pin 7: Dynode 5
- Pin 8: Dynode 6
- Pin 9: Dynode 7
- Pin 10: Dynode 8
- Pin 11: Base
Functional Features
- High sensitivity to low light levels
- Low noise amplification of weak signals
- Wide dynamic range for detecting varying light intensities
- Hermetic metal package for durability and reliability
Advantages and Disadvantages
Advantages
- High sensitivity allows detection of low light levels
- Low noise amplification for accurate signal measurement
- Wide dynamic range suitable for diverse light intensity measurements
Disadvantages
- High operating voltage requirement
- Limited spectral response range compared to some alternatives
Working Principles
The PMT3(310)25004F operates based on the photoelectric effect. When photons strike the cathode, they release electrons through the photoelectric effect. These electrons are then multiplied through a series of dynodes, resulting in an amplified electrical signal proportional to the incident light.
Detailed Application Field Plans
The PMT3(310)25004F is ideal for applications requiring high sensitivity light detection, such as: - Fluorescence spectroscopy - Scintillation counting - Bioluminescence measurement - Low-light astronomy observations
Detailed and Complete Alternative Models
- Hamamatsu R9880U-110
- EMI 9814B
- Burle 8850
This completes the requested content structure for the PMT3(310)25004F entry in the English editing encyclopedia format.
10個與PMT3(310)25004F在技術方案中應用相關的常見問題與解答
What is PMT3(310)25004F?
- PMT3(310)25004F is a type of technical solution used for [specific purpose].
How does PMT3(310)25004F work?
- PMT3(310)25004F works by [brief explanation of its operation].
What are the main features of PMT3(310)25004F?
- The main features of PMT3(310)25004F include [list of key features such as durability, efficiency, etc.].
What are the potential applications of PMT3(310)25004F?
- PMT3(310)25004F can be applied in various technical solutions such as [examples of industries or processes where it can be used].
Is PMT3(310)25004F compatible with other systems or technologies?
- Yes, PMT3(310)25004F is designed to be compatible with a range of systems and technologies, including [list of compatible systems or technologies].
What are the advantages of using PMT3(310)25004F in technical solutions?
- The advantages of using PMT3(310)25004F include [benefits such as cost-effectiveness, reliability, etc.].
Are there any limitations or considerations when implementing PMT3(310)25004F?
- It's important to consider factors such as [potential limitations or specific conditions for optimal use] when implementing PMT3(310)25004F.
How can PMT3(310)25004F be integrated into existing technical solutions?
- PMT3(310)25004F can be integrated into existing technical solutions through [brief explanation of integration process or compatibility requirements].
What kind of support or maintenance is required for PMT3(310)25004F?
- Regular maintenance and support activities such as [list of maintenance tasks or support options] are recommended for PMT3(310)25004F.
Where can I find more information about PMT3(310)25004F and its application in technical solutions?
- Additional information about PMT3(310)25004F and its application in technical solutions can be found through [sources such as official documentation, customer support, etc.].