Wire Harness Probe Pogo Pin CH203 Series for Electronic Test
Harness probes are mainly used directly or for the tests of automotive industry. Parts of them are also applied to communication electronics, medical equipment, equipment automation, etc. The standard and requirements for them are high compared with other test probes. Harness probes can be divided into screw-thread harness probes, harness switch probes, non-screw-thread harness probes, position-limited harness probes and high-current harness probes, etc.
The CH203 harness probe we will introduce here is 2.03 mm in diameter and 35.9 mm in total length. Its barrel is made of phosphor bronze plated with gold and nickel. The plunger is made of gold-plated beryllium copper, which is softer but less magnetic than the alternative SK4. The spring inside is made of stainless steel plated with gold and nickel.
This probe can withstand up to the current 5 Amps. Its typical maximum contact resistance is 50 milliohms. It is suggested the plunger be pressed at a distance of 5 mm at most when this probe works, although the plunger can move as far as 7.75 mm. Otherwise, the spring inside the barrel will probably be damaged under constant pressure. When the plunger is pressed at a distance of 5 mm, its loaded force is about 145 gf, namely 5.5 ounces or so. Furthermore, the force fluctuates in a range due to the tolerance.
Technical Specifications
Recommended
Current Rating: 5 Amps, continuous
Contact Resistance: 50 milliohms
Full Stroke: 7.75 mm
Rated Stroke: 5 mm
Spring Force: 145 ±43 gf (5.5 oz) at load 5 mm
Materials (plated)
Barrel: Phosphor Bronze, Au on Ni Plated
Plunger: BeCu, Au on Ni Plated
Spring: SUS, Au on Ni Plated
Company Information
Centalic Technology Development Ltd. was founded in 1980. Our products include semiconductor test probes, in-circuit test probes, radio frequency probes, harness probes, battery contact probes, switching probes, big-current probes, spring probes, universal complex test probes, wafer probes, and so on.
Technical data: Oxygen flow:0.5-5L/min Oxygen concentration:95.5%-87% Output pressure: 40-70kPa Pressure relief mechanism operational at: 250kPa + 25kPa Operation nose Level
Oxygen Concentrator - 0.5-10L/Min Purityï¼? 96% Compressor Life - 25000hours Sound Level 60dB Screen - LED Segment real-time display Power comsumption - 500VA Net Weight - 23k Gross weight:27kg
Fuel LPG. Fuel Tank Capacity 2.0 L Fuel Consumption : App. 225 g P/H Length : 350 mm Height : 330 mm Width : 150 mm Weight(kg) Empty : 1.5 Kg (Empty)
Warranty: 2 years After-sale Service: Online technical support Material: metal Shelf Life:2 years Instrument classification:Class II Safety standard: none Application: Cardiology
Wire Harness Probe Pogo Pin CHD136 for the Tests of Automotive Industry Harness probes are mainly used directly or for the tests of the automotive industry. Parts of them are also applied to communication electronics, medical equipment, equipment automation, etc. The standard and requirements for them are high compared with other test probes. Harness probes can be divided into screw-thread harness probes, harness switch probes, non-screw-thread harness probes, position-limited harness probes and high-current harness probes, etc. The CHD136 harness probe we will introduce here is 1.36 mm in diameter and 33 mm in total length. Its barrel is made of brass plated with gold and nickel. The plunger is made of gold-plated beryllium copper, which is softer but less magnetic than the alternative SK4. The spring inside is made of music wire plated with gold and nickel. This probe can withstand up to the current 3 Amps. Its typical maximum contact resistance is 50 milliohms. It is suggested the plunger be pressed at a distance of 4.6 mm at most when this probe works, although the plunger can move as far as 7 mm. Otherwise, the spring inside the barrel will probably be damaged under constant pressure. When the plunger is pressed at a distance of 4.6 mm, its loaded force is about 255 gf, namely 9 ounces or so. Furthermore, the force fluctuates in a range due to the tolerance. Technical Specifications Recommended Current Rating: 3 Amps, continuous Contact Resistance: 50 milliohms Full Stroke: 7 mm Rated Stroke: 4.6 mm Spring Force: 255�±75 gf (9 oz) at load 4.6 mm Materials (plated) Barrel: Brass, Au on Ni Plated Plunger: Beryllium Copper, Au on Ni Plated Spring: SWP-A/B, Au on Ni Plated Company Information Centalic Technology Development Ltd. was founded in 1980.Our products include semiconductor test probes, in-circuit test probes, radio frequency probes, harness probes, battery contact probes, switching probes, big-current probes, spring probes, universal complex test probes, wafer probes, and so on.
Wire Harness Probe Pogo Pin CHL165 for the Tests of Automotive Industry Harness probes are mainly used directly or for the tests of automotive industry. Parts of them are also applied to communication electronics, medical equipment, equipment automation, etc. The standard and requirements for them are high compared with other test probes. Harness probes can be divided into screw-thread harness probes, harness switch probes, non-screw-thread harness probes, position-limited harness probes and high-current harness probes, etc. The CHL165 harness probe we will introduce here is 1.65 mm in diameter and 35.4 mm in total length. Its barrel is made of brass plated with gold and nickel. The plunger is made of gold-plated beryllium copper, which is softer but less magnetic than the alternative SK4. The spring inside is made of music wire plated with gold and nickel. This probe can withstand up to the current 3 Amps. Its typical maximum contact resistance is 100 milliohms. It is suggested the plunger be pressed at a distance of 3.5 mm at most when this probe works, although the plunger can move as far as 5.3 mm. Otherwise, the spring inside the barrel will probably be damaged under constant pressure. When the plunger is pressed at a distance of 3.5 mm, its loaded force is about 113 gf, namely 4 ounces or so. Furthermore, the force fluctuates in a range due to the tolerance. Technical Specifications Recommended Current Rating: 3 Amps, continuous Contact Resistance: 100 milliohms Full Stroke: 5.3 mm Rated Stroke: 3.5 mm Spring Force: 113�?�±35 gf (4 oz) at load 3.5 mm Materials (plated) Barrel: Brass, Au on Ni Plated Plunger: BeCu, Au on Ni Plated Spring: SWP-A/B, Au on Ni Plated Company Information Centalic Technology Development Ltd. was founded in 1980.Our products include semiconductor test probes, in-circuit test probes, radio frequency probes, harness probes, battery contact probes, switching probes, big-current probes, spring probes, universal complex test probes, wafer probes, and so on.
I can provide general information about guide wires used in medical procedures. Guide wires play a crucial role in various interventional procedures, such as angiography and angioplasty, where they are used to navigate through blood vessels and provide a pathway for the delivery of catheters and other medical devices.
he Terumo Runthrough NS PTCA (Percutaneous Transluminal Coronary Angioplasty) guide wire is a product manufactured by Terumo Corporation, a global medical device company. Guide wires are essential tools used in cardiovascular procedures, particularly in angioplasty and stenting, to navigate through blood vessels and provide support for the delivery of catheters and other interventional devices. Key features and characteristics of the Terumo Runthrough NS PTCA guide wire may include: Hydrophilic Coating: Many Terumo guide wires, including the Runthrough NS, are known for their hydrophilic coating. This coating facilitates smoother navigation through blood vessels, reducing friction and enhancing steerability. Flexible Design: The guide wire is designed to be flexible, allowing it to navigate tortuous vessels and reach target locations with precision. Radiopaque Tip: The tip of the guide wire is often radiopaque, making it visible under fluoroscopy or other imaging modalities. This feature helps interventional cardiologists visualize the position of the guide wire during the procedure. Different Tip Configurations: Guide wires may come with different tip configurations, such as soft or floppy tips for ease of navigation or more supportive tips for crossing lesions. Various Lengths and Diameters: Terumo typically offers guide wires in various lengths and diameters to accommodate different patient anatomies and procedural requirements.
ECG cables also referred to as an ECG patient cable, is a type of cable connection designed for non-invasive heart monitoring, typically used to help diagnose potential heart issues. The ECG cable connects to electrodes which are positioned at specific locations on the patientâ??s body to detect and record heart muscle electrical activity. The cables then transmit the electrical activity back to the ECG device for analysis and diagnosis by medical professionals. ECG Cable Feature [Multiple Leads]: ECG cables usually have several leads placed in specific areas on the patientâ??s body, such as the chest, arms, and legs, to measure the heartâ??s electrical activity from different angles. [Durability]: ECG cables are constructed from top-quality, sturdy materials that can endure repeated bending, tugging, and twisting without sustaining any damage. This ensures that the cables can withstand the rigors of frequent use and remain reliable over time. [Shielding]: ECG cables are shielded to block out external electrical signals, which can interfere with the accuracy of the readings. [Connector Compatibility]: The ECG cables are available with various connector types, including snap, clip, and banana, to fit different types of ECG machines. [Safety]: ECG cables are designed to meet strict safety standards and regulations to ensure patient safety. This helps to ensure that patients are protected from any potential harm during the monitoring process. [Cleaning and Disinfecting]: The ECG cables are easy to clean and disinfect to maintain hygienic conditions, as they come into contact with the patientâ??s skin. ECG Cable Advantages [Excellent Performance]: ECG cables are built to withstand the rigors of twisting and bending, and have been thoroughly tested to ensure optimal performance. The cables are also equipped with electrical shielding to protect the signal integrity, ensuring accurate readings. [Non-Invasive]: ECG cables are non-invasive, which means that they do not require any incisions or invasive procedures. This reduces the risk of infection and makes the monitoring process much safer for patients. Instead, the cables are simply attached to the patient's skin, making it a quick and painless process.
