Harness Probe Pogo Pin CH136 Series 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 CH136 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 2.67�?� mm at most when this probe works, although the plunger can move as far as 4�?� mm. Otherwise, the spring inside the barrel will probably be damaged under constant pressure. When the plunger is pressed at a distance of 2.67�?� mm, its loaded force is about 185�?� gf, namely 6.5 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: 4 mm Rated Stroke: 2.67 mm Spring Force: 185 ±55 gf (6.5 oz) at  load 2.67 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. They are widely applied to the tests of various electronic products, such as in-circuit tests of semiconductor components, chips, PCB and other electronic peripherals. Welcome to browse our website and download any catalogs of our products. �?� Notice: Stock: standard product. As usual, they are in stock. Express: DHL, FedEx, UPS, etc. Payment: T/T, PayPal
Cable Harness Probe Pogo Pin CH136 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 CH136 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 1.67  mm at most when this probe works, although the plunger can move as far as 2.5  mm. Otherwise, the spring inside the barrel will probably be damaged under constant pressure. When the plunger is pressed at a distance of 1.67 mm, its loaded force is about 140  gf, namely 5  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: 2.5 mm Rated Stroke: 1.67 mm Spring Force: 140 ±40 gf (5 oz) at  load 1.67 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. They are widely applied to the tests of various electronic products, such as in-circuit tests of semiconductor components, chips, PCB and other electronic peripherals. Welcome to browse our website and download any catalogs of our products. Notice: Stock: standard product. As usual, they are in stock. Express: DHL, FedEx, UPS, etc. Payment: T/T, PayPal
Semiconductor Test Probe Pogo Pin SCPB038 for IC Inspection Semiconductor test probes are usually called double-ended pogo pins. Common tip styles include B, J, J1, U, U1, etc. All of the probes are extremely thin and miniature, however, the requirement for their test accuracy is very strict. They are mainly applied to the fields of semiconductor tests and frequency tests of communication devices, for example, the frequency tests of mobile phones, walkie-talkies, computers, etc. This product SCFB038 we will introduce is 0.38 mm in barrel diameter and 6 mm in total length. It can be applied to the tests of products which requires relatively high accuracy, for example frequency tests of semiconductor and communication devices. Developed and manufactured on our own, this product takes the lead in the test industry. Our complete production lines can also meet the needs for mass production. The barrel of this double-ended pogo pin is made from phosphor bronze plated with gold The bottom plunger is made from beryllium copper plated with nickel and gold. The same is with the top plunger. The inner spring is made from music wire plated with gold and nickel. This probe pin could withstand the current up to 1.5 amps. The typical maximal contact resistance is about 100 milliohms. The plunger can be pressed at a distance of up to 1 mm. But it is better to be pressed at a distance of 0.6 mm at most in working environments. Otherwise, the spring will probably be damaged severely under constant pressure. When the plunger is pressed at a distance of 0.6 mm, the loaded force is about 25 gf, which fluctuates to a tolerance. For details, please check parameters in below table. Materials (plated) Barrel: Ph, Au on Ni Plated Bottom Plunger: BeCu, Au on Ni Plated Top Plunger: BeCu, Au on Ni Plated Spring: SWP-A/B, Au on Ni Plated Electronic Specification: Current Rating: 1.5 amps Contact Resistance: 100 milliohms max Bandwidth: 5.3 GHz at -1dB Propagation Delay: 27 ps Inductance: 1MHZ at -0.02809 uH Captance: 1MHZ at 0.876347 uF Specifications: Full Stroke: 1 mm Rated Stroke: 0.6 mm Spring Force: 25 7 gf at load 0.6 mm Mechanical Life: about 200000 cycles 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.
Double-sided Spring Pogo Pin Test Probe SCPA021 Series for IC Inspection Semiconductor test probes are usually called double-ended pogo pins. Common tip styles include B, J, J1, U, U1, etc. All of the probes are extremely thin and miniature, however, the requirement for their test accuracy is very strict. They are mainly applied to the fields of semiconductor tests and frequency tests of communication devices, for example, the frequency tests of mobile phones, walkie-talkies, computers, etc. This product SCPA021 we will introduce is 0.21 mm in barrel diameter. It can be applied to the tests of products which requires relatively high accuracy, for example frequency tests of semiconductor and communication devices. Developed and manufactured on our own, this product takes the lead in the test industry. Our complete production lines can also meet the needs for mass production. The barrel of this double-ended pogo pin is made from phosphor bronze plated with gold or gold clad phosphor bronze. The bottom plunger is made from SK4 plated with nickel and gold. The same is with the top plunger. The inner spring is made from music wire plated with gold and nickel. This probe pin could withstand the current up to 1 Amp. The typical maximal contact resistance is about 200 milliohms. The plunger can be pressed at a distance of up to 1.1 mm. But it is better to be pressed at a distance of 0.65 mm at most in working environments. Otherwise, the spring will probably be damaged severely under constant pressure. When the plunger is pressed at a distance of 0.65 mm, the loaded force is about 12 gf, which fluctuates to a tolerance. For details, please check parameters in below table. Materials (plated) Barrel: Ph/ SP, Au on Ni Plated Bottom Plunger: SK4, Au on Ni Plated Top Plunger: SK4, Au on Ni Plated Spring: SWP-A/B, Au on NI Plated Electronic Specification: Current Rating: 1 amp Contact Resistance: 200 milliohms max Bandwidth: 9.7 GHz at -1dB Inductance: 1MHZ at -0.05647 uH Captance: 1MHZ at 0.864722 uF Specifications: Full Stroke: 1.1 mm Rated Stroke: 0.65 mm Spring Force: 124 gf at load 0.65 mm Mechanical Life: about 100000 cycles 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.
Semiconductor Test Probe Spring-Loaded Pogo Pin SCPA031(21) for Chip Inspection Semiconductor test probes are usually called double-ended pogo pins. Common tip styles include B, J, J1, U, U1, etc. All of the probes are extremely thin and miniature, however, the requirement for their test accuracy is very strict. They are mainly applied to the fields of semiconductor tests and frequency tests of communication devices, for example, the frequency tests of mobile phones, walkie-talkies, computers, etc. This product SCPA031(21) we will introduce is 0.31 mm in barrel diameter. It can be applied to the tests of products which requires relatively high accuracy, for example frequency tests of semiconductor and communication devices. Developed and manufactured on our own, this product takes the lead in the test industry. Our complete production lines can also meet the needs for mass production. The barrel of this double-ended pogo pin is made from phosphor bronze plated with gold. The bottom plunger is made from beryllium copper plated with nickel and gold. The same is with the top plunger. The inner spring is made from music wire plated with gold and nickel. This probe pin could withstand the current up to 2 Amps. The typical maximal contact resistance is about 100 milliohms. The plunger can be pressed at a distance of up to 0.7 mm. But it is better to be pressed at a distance of 0.45 mm at most in working environments. Otherwise, the spring will probably be damaged severely under constant pressure. When the plunger is pressed at a distance of 0.45 mm, the loaded force is about 20 gf, which fluctuates to a tolerance. For details, please check parameters in below table. Materials (plated) Barrel: Ph, Au on Ni Plated Bottom Plunger: BeCu, Au on Ni Plated Top Plunger: BeCu, Au on Ni Plated Spring: SWP-A/B, Au on Ni Plated Electronic Specification: Current Rating: 2 amps Contact Resistance: 100 milliohms max Bandwidth: 7.4 GHz at -1dB Inductance: 1MHZ at -0.05996 uH Captance: 1MHZ at 0.425647 uF Specifications: Full Stroke: 0.7 mm Rated Stroke: 0.45 mm Spring Force: 20�?�±6 gf at load 0.45 mm Mechanical Life: about 200000 cycles 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.
Semiconductor Test Probe Pogo Pin SCFE035 for Integrated Circuit Inspection Semiconductor test probes are usually called double-ended pogo pins. Common tip styles include B, J, J1, U, U1, etc. All of the probes are extremely thin and miniature, however, the requirement for their test accuracy is very strict. They are mainly applied to the fields of semiconductor tests and frequency tests of communication devices, for example, the frequency tests of mobile phones, walkie-talkies, computers, etc. This product SCFE035 we will introduce is 0.35 mm in barrel diameter and 18 mm in total length. It can be applied to the tests of products which requires relatively high accuracy, for example frequency tests of semiconductor and communication devices. Developed and manufactured on our own, this product takes the lead in the test industry. Our complete production lines can also meet the needs for mass production. The barrel of this double-ended pogo pin is made from phosphor bronze plated with gold The bottom plunger is made from SK4 plated with nickel and gold. The same is with the top plunger. The inner spring is made from music wire plated with gold and nickel. This probe pin could withstand the current up to 1.5 amps. The typical maximal contact resistance is about 150 milliohms. The plunger can be pressed at a distance of up to 1.5 mm. But it is better to be pressed at a distance of 1 mm at most in working environments. Otherwise, the spring will probably be damaged severely under constant pressure. When the plunger is pressed at a distance of 1 mm, the loaded force is about 38 gf, which fluctuates to a tolerance. For details, please check parameters in below table. Materials (plated) Barrel: Ph, Au on Ni Plated Bottom Plunger: SK4, Au on Ni Plated Top Plunger: SK4, Au on Ni Plated Spring: SWP-A/B, Au on Ni Plated Electronic Specification: Current Rating: 1.5 amps Contact Resistance: 150 milliohms max Bandwidth: 9.3 GHz at -1dB Inductance: 1MHZ at -0.05517 uH Captance: 1MHZ at 0.462432 uF Specifications: Full Stroke: 1.5 mm Rated Stroke: 1 mm Spring Force: 38�?�±11 gf at load 1 mm Mechanical Life: about 200000 cycles For more information, please check below catalog. 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.
Cable Harness Probe Pogo Pin CHZ199 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 CHZ199 harness probe we will introduce here is 1.99 mm in diameter and 33.2 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 4.4 mm at most when this probe works, although the plunger can move as far as 6.6 mm. Otherwise, the spring inside the barrel will probably be damaged under constant pressure. When the plunger is pressed at a distance of 4.4 mm, its loaded force is about 133 gf, namely 4.7 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: 6.6 mm Rated Stroke: 4.4 mm Spring Force: 133�?�±40 gf (4.7 oz) at load 4.4 mm Materials (plated) Barrel: Brass, Au on Ni Plated Plunger: BeCu, Au on Ni Plated Spring: SWP-A/B, Au on Ni Plated For more information, please check below catalog. 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.
Semiconductor Test Probe Pogo Pin SCPA030 Series for IC Inspection Semiconductor test probes are usually called double-ended pogo pins. Common tip styles include B, J, J1, U, U1, etc. All of the probes are extremely thin and miniature, however, the requirement for their test accuracy is very strict. They are mainly applied to the fields of semiconductor tests and frequency tests of communication devices, for example, the frequency tests of mobile phones, walkie-talkies, computers, etc. This product SCPA030 we will introduce is 0.3 mm in barrel diameter. It can be applied to the tests of products which requires relatively high accuracy, for example frequency tests of semiconductor and communication devices. Developed and manufactured on our own, this product takes the lead in the test industry. Our complete production lines can also meet the needs for mass production. The barrel of this double-ended pogo pin is made from phosphor bronze plated with gold or gold clad phosphor bronze. The bottom plunger is made from beryllium copper plated with nickel and gold. The same is with the top plunger. The inner spring is made from music wire plated with gold and nickel. This probe pin could withstand the current up to 2 Amps. The typical maximal contact resistance is about 100 milliohms. The plunger can be pressed at a distance of up to 1.1 mm. But it is better to be pressed at a distance of 0.65 mm at most in working environments. Otherwise, the spring will probably be damaged severely under constant pressure. When the plunger is pressed at a distance of 0.65 mm, the loaded force is about 10 gf, which fluctuates to a tolerance. For details, please check parameters in below table. Materials (plated) Barrel: Ph/ SP, Au on Ni Plated Bottom Plunger: BeCu, Au on Ni Plated Top Plunger: BeCu, Au on Ni Plated Spring: SWP-A/B, Au on Ni Plated Electronic Specification: Current Rating: 2 amps Contact Resistance: 100 milliohms max Bandwidth: 7.1 GHz at -1dB Inductance: 1MHZ at -0.02524 uH Captance: 1MHZ at 1.12735 uF Specifications: Full Stroke: 1.1 mm Rated Stroke: 0.65 mm Spring Force: 10 ±3 gf at load 0.65 mm Mechanical Life: about 200000 cycles 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.
Cable Harness Probe Pogo Pin CH200-H(14) 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 CH200 harness probe we will introduce here is 1.99 mm in diameter and 39 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 4.5 mm at most when this probe works, although the plunger can move as far as 7.3 mm. Otherwise, the spring inside the barrel will probably be damaged under constant pressure. When the plunger is pressed at a distance of 4.5 mm, its loaded force is about 312 gf, namely 11 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: 7.3 mm Rated Stroke: 4.5 mm Spring Force: 312�?�±65 gf (11 oz) at load 4.5 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.
Wire Harness Probe Spring-loaded Pogo Pin CHZ136-J Series Applied to 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 CHZ136-J harness probe we will introduce here is 1.36 mm in diameter and 32.8 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 6.9 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 130 gf, namely 4.5 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: 6.9 mm Rated Stroke: 4.6 mm Spring Force: 130�?�±40 gf (4.5 oz) at load 4.6 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.
Pogo Pin Semiconductor Test Probe SCPA025 Series for IC Test Semiconductor test probes are usually called double-ended pogo pins. Common tip styles include B, J, J1, U, U1, etc. All of the probes are extremely thin and miniature, however, the requirement for their test accuracy is very strict. They are mainly applied to the fields of semiconductor tests and frequency tests of communication devices, for example, the frequency tests of mobile phones, walkie-talkies, computers, etc. This product SCPA025 we will introduce is 0.25 mm in barrel diameter. It can be applied to the tests of products which requires relatively high accuracy, for example frequency tests of semiconductor and communication devices. Developed and manufactured on our own, this product takes the lead in the test industry. Our complete production lines can also meet the needs for mass production. The barrel of this double-ended pogo pin is made from phosphor bronze plated with gold or gold clad phosphor bronze. The bottom plunger is made from beryllium copper plated with nickel and gold. The same is with the top plunger. The inner spring is made from music wire plated with gold and nickel. This probe pin could withstand the current up to 1 Amp. The typical maximal contact resistance is about 100 milliohms. The plunger can be pressed at a distance of up to 1.1 mm. But it is better to be pressed at a distance of 0.65 mm at most in working environments. Otherwise, the spring will probably be damaged severely under constant pressure. When the plunger is pressed at a distance of 0.65 mm, the loaded force is about 14 gf, which fluctuates to a tolerance. For details, please check parameters in below table. Materials (plated) Barrel�¯�¼? Ph/SP, Au on Ni Plated Bottom Plunger�¯�¼? BeCu, Au on Ni Plated Top Plunger BeCu, Au on Ni Plated Spring SWP-A/B, Au on Ni Plated Electronic Specification: Current Rating 1 amp Contact Resistance 100 milliohms max Bandwidth ? 9.3 GHz at -1dB Inductance 1MHZ at -0.02384 uH Captance 1MHZ at 1.06747 uF Specifications: Full Stroke 1.1 mm Rated Stroke 0.65 mm Spring Force 4 gf at load 0.65 mm Mechanical Life about 100000 cycles 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.
Electronic Test Probe Double-ended Pogo Pin SCPC030(50)-XX-67 for IC Inspection Semiconductor test probes are usually called double-ended pogo pins. Common tip styles include B, J, J1, U, U1, etc. All of the probes are extremely thin and miniature, however, the requirement for their test accuracy is very strict. They are mainly applied to the fields of semiconductor tests and frequency tests of communication devices, for example, the frequency tests of mobile phones, walkie-talkies, computers, etc. This product SCPC030(50)-XX-67 we will introduce is 0.3 mm in barrel diameter. It can be applied to the tests of products which requires relatively high accuracy, for example frequency tests of semiconductor and communication devices. Developed and manufactured on our own, this product takes the lead in the test industry. Our complete production lines can also meet the needs for mass production. The barrel of this double-ended pogo pin is made from phosphor bronze plated with gold. The bottom plunger is made from beryllium copper plated with nickel and gold. The top plunger is made from SK4 plated with nickel and gold. The inner spring is made from music wire plated with gold and nickel. This probe pin could withstand the current up to 1.5 amps. The typical maximal contact resistance is about 100 milliohms. The plunger can be pressed at a distance of up to 1 mm. But it is better to be pressed at a distance of 0.8 mm at most in working environments. Otherwise, the spring will probably be damaged severely under constant pressure. When the plunger is pressed at a distance of 0.8 mm, the loaded force is about 12 gf, which fluctuates to a tolerance. For details, please check parameters in below table. Materials (plated) Barrel: Ph, Au on Ni Plated Bottom Plunger: BeCu, Au on Ni Plated Top Plunger: SK4, Au on Ni Plated Spring: SWP-A/B, Au on Ni Plated Electronic Specification: Current Rating: 1.5 amps Contact Resistance: 100 milliohms max Bandwidth: 7.5 GHz at -1dB Inductance: 1MHZ at -0.05032 uH Captance: 1MHZ at 0.502464 uF Specifications: Full Stroke: 1 mm Rated Stroke: 0.8 mm Spring Force: 12�?�±3 gf at load 0.8 mm Mechanical Life: about 200000 cycles 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.
Test Probe Pogo Pin SCPA020 for Integrated Circuit Inspection Semiconductor test probes are usually called double-ended pogo pins.  Common tip styles include B, J, J1, U, U1, etc. All of the probes are extremely thin and miniature, however, the requirement for their test accuracy is very strict. They are mainly applied to the fields of semiconductor tests and frequency tests of communication devices, for example, the frequency tests of mobile phones, walkie-talkies, computers, etc. This product SCPA020 we will introduce is 0.2 mm in barrel diameter. It can be applied to the tests of products which requires relatively high accuracy, for example frequency tests of semiconductor and communication devices. � Developed and manufactured on our own, this product takes the lead in the test industry. Our complete production lines can also meet the needs for mass production. The barrel of this double-ended pogo pin is made from phosphor bronze plated with gold or gold clad phosphor bronze. The bottome plunger is made from SK4 plated with nickel and gold. The same is with the top plunger. The inner spring is made from SUS304 plated with gold and nickel. This probe pin could withstand the current up to 1 Amp. The typical maximal contact resistance is about 200 milliohms The plunger can be pressed at a distance of up to 1.1 mm. But it is better to be pressed at a distance of 0.6 mm at most in working environments. Otherwise the spring will probably be damaged severely under constanct pressure. When the plunger is pressed at a distance of 0.6 mm, the loaded force is about 12 gf, which fluctuates to a tolerane. For details, please check parameters in below table. Materials (plated) Barrel: Ph/ SP, Au on Ni Plated Bottom Plunger: SK4, Au on Ni Plated Top Plunger: SK4, Au on Ni Plated Spring: SWP  Au on Ni Plated Electronic Specification: Current Rating: 1 amp Contact Resistance: 200 milliohms max Bandwidth: 9.3 GHz at -1dB Inductance: 1MHZ at -0.13527uH Captance: 1MHZ at 0.186437uF Specifications: Full Stroke: 1.1 mm Rated Stroke: 0.6 mm Spring Force: 12 ±4 gf at load 0.6 mm Mechanical Life: about 100000 cycles 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. Welcome to browse our website centalic.com and download any catalogs of our products.
Semiconductor Test Probe Double-ended Pogo Pin SCPE015 for IC Inspection Semiconductor test probes are usually called double-ended pogo pins. Common tip styles include B, J, J1, U, U1, etc. All of the probes are extremely thin and miniature, however, the requirement for their test accuracy is very strict. They are mainly applied to the fields of semiconductor tests and frequency tests of communication devices, for example, the frequency tests of mobile phones, walkie-talkies, computers, etc. This product SCPE015 is the tiniest series in semiconductor test probes since its outside diameter is only 0.15mm. It can be applied to the tests of products which requires relatively high accuracy, for example frequency tests of semiconductor and communication devices  Developed and manufactured on our own, this product takes the lead in the test industry. Our complete production lines can also meet the needs for mass production. Its parameters are as below. Materials (plated) Barrel: Gold Clad, No Plated X-Bottom (Plunger 1): Pd, No Plated Y-Top (Plunger 2): Pd, No Plated Spring: SWP, Au on Ni Plated Electronic Specification: Current Rating: 0.5 amp Contact Resistance: 250 milliohms max Bandwidth: 11.4 GHz@-1dB Inductance: 1MHZ@-0.06439uH Captance: 1MHZ@0.364375uF Specifications: Full Stroke: 0.8 mm Rated Stroke: 0.6 mm Spring Force: 9 ±2 gf@load 0.6 mm Mechanical Life: about 100000 cycles Company Information: Centalic Technology Development Ltd. was founded in 1980. Specializing in R&D, manufacture, sales and technical service, Centalic is one of the earliest high-tech enterprises which concentrates on large-scale production of various test probes and precision metal parts, and has a professional manufacturing base owning complete production lines and test equipment. 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. They are widely applied to the tests of various electronic products, such as in-circuit tests of semiconductor components, chips, PCB and other electronic peripherals. Welcome to browse our website and download any catalogs of our products. If you need a complete set of product manual, please feel free to contact us. Many products are not uploaded due to a huge range. If you can't find what you need, please feel free to contact us. Notice: Stock: standard product. As usual, they are in stock. Express: DHL, FedEx, UPS, etc. Payment: T/T, PayPal
What is a butterfly valve? Butterfly valves have a wide range of uses in the water, wastewater, fire protection, and gas supply industries, as well as in the chemical and oil industries, fuel handling systems, and power production. The basic construction, which does not take up a lot of space, as well as the lightweight and reduced cost when compared to other valve designs, are some of the benefits of this type of valve. A butterfly valve is a shut-off valve with a straightforward design. The disc stops the valve hole in the closed position, while the disc is spun to enable flow in the open position. The butterfly valve provides for rapid opening and closing by turning a quarter turn from fully open to fully closed, or the other way around. An acentric or concentric butterfly valve is the most frequent form of butterfly valve arrangement. The stem of this sort of butterfly valve travels along the middle line of the disc in the center of the pipe bore, and the seat is the inside diameter of the valve's body. This no offset valve arrangement is also known as a resilient-seated valve because the seal's dependability is dependent on the flexibility of the seat rubber when the flow is closed. The disc first interacts with the seat at roughly 85�° for a 90�° revolution in this sort of valve. In low-pressure applications, concentric butterfly valves are commonly utilized. The concentric butterfly valve is a flow control mechanism that controls the flow medium in the system with a rotary disc. The disc stays in the passage, but it provides very little resistance to the flow due to its thinness. The design of concentric butterfly valves is relatively straightforward. The basic components of a concentric butterfly valve are the body, seal, disc, and stem. A disc is positioned in the middle of the connecting pipe, and a stem is connected to the actuator or handle on the exterior of the valve in the typical butterfly valve. The disc is perpendicular to the flow when the valve is closed, and the seat of the valve is closed. APPLICATIONS Water treatment. Water Distribution. Water Transmission. Aeration System. Fire Protection Body Material: Cast Carbon steel (WCC,WCB, WC6), Stainless Steel [SS316, SS304, SS316L, SS904L, CF8, CF8M, F31L, F91], DUPLEX STEEL and Super duplex Steel (F51,F53,F55) , Cast iron, Ductile Iron. Size 2 48 Class: 150 to 300; PN 6 PN 25 Ends: Wafer, flanged, lug Operations: Lever operated, gear operated, pneumatically actuated, and electric actuated.
Speciality valve is a largest Cryogenic valve manufacturer in India. Cryogenic valves, as their name , are intended for use in extremely cold environments. Companies that work with liquefied natural gas LNG or compressed natural gas CNG use them the most CNG. The oil and gas industry, for example, regularly employs cryogenic temperature ranges beginning at 238 degrees Fahrenheit 150 degrees Celcius .Furthermore, some gases are characterised as 'cryogenic' not because of their temperature, but because compressing their volume requires more than a simple pressure rise. Cryogenic valves are designed to transmit and store cryogenic gases in a safe and efficient manner. Cryogenic Valves Working To keep cryogenic gases or other medium secure and safe, cryogenic valves are kept in a naturally closed condition. A cryogenic valve is often designed to respond to high pressure by opening the valve, allowing gas or other media to flow freely through it. This open flow will continue until the pressure drops again, at which time it will swing back and close with a special metal seat bubble tight shutdown to prevent any leakage. The cryogenic valves have the device drivers as bevel gear, pneumatic, handle, or electric. The design standards used for these valves are API 602, BS 6364, and API 600. Being used in cold applications, cryogenic valves mainly hold impxortance in the factories that deal with compressed natural gas. These valves help to store the heavy cryogenic gasses efficiently and safely. When you search for the best cryogenic valve supplier in , we would be topping up the list. Thus, get in touch with us today. Cryogenic Valve is use in many industries such as Medical Industry. Aerospace Industry. Air Separation Plants. Petrochemical Industry. LNG Storage Industry. Types of cryogenic valve Cryogenic gate valve Cryogenic globe valve Cryogenic ball valve Cryogenic check valve Cryogenic butterfly valve Advantages of Cryogenic Valves Built to open under high pressure to allow free flow of gases before the pressure drops, at which point it seals with a metal seat to prevent further leakage. Cryogenic Globe valves provide Long-term sealing capacity. Cryogenic valves come in a number of shapes and sizes, allowing them to work in a variety of pressure levels. Therefore, they are great for whatever type is needed. Description Body materials stainless steel SS304, SS316, CF8M, SS316L, SS904L Size 12 12 Class 150 1500 PN10 PN450. Ends lug, wafer, flanged Operation Pneumatic, Electric, Hand wheel, Gear operated
Specialityvalve is a leading Hastelloy valve manufacturer in India with strong R&D and customer support. These valves have high resistance to corrosion and are used in temperatures above 800 degrees. There are many grades to Hastelloy and they are all optimized for specific purposes. They are also great for welding purposes. Hastelloy material can be forged and cold worked also. They are used mostly in chemical and petrochemical industries. Advantages: Resistant to pitting, crevice corrosion and stress corrosion cracking Outstanding resistance to both reducing and oxidising media. Excellent resistance to oxidising aqueous media Resistant to pitting, crevice corrosion, and stress corrosion cracking Resists the development of grain-boundary precipitates in a wide range of chemical process conditions, including strong oxidizers such ferric acids, acetic anhydride, and seawater solutions. Excellent weld ability Industries: Pharmaceutical industries use alloy C-22 fittings and tubing to avoid contamination caused by corrosion related failures Cellophane manufacturing Chlorination systems â?¢ Pesticide production â?¢ Incineration scrubber systems â?¢ Chemical process industry in equipment like flue gas scrubbers, chlorination systems, sulfur dioxide scrubbers, pulp and paper bleach plants, pickling systems, and nuclear fuel reprocessing Waste water processing Types: Hastelloy Ball valve Hastelloy Check valve Hastelloy Gate valve Hastelloy Globe valve Hastelloy Butterfly valve Are you on the lookout for the best Hastelloy valves globally? Get exclusive collection of Hastelloy valves at Specialityvalve. We are the prime Hastelloy Valve Manufacturer in India. Hastelloy valves come with the best features. The low maintenance and long durability make Hastelloy valves a perfect choice. These valves ensure a seamless flow of liquids and gases. These valves are available in diverse structures like Ball valve, Gate valve, check valve, Globe valve and have longer life with low maintenance requirements. Material: Hastelloy C276, Hastelloy G30, Hastelloy B, Hastelloy C22, Hastelloy C4. Class: 150 to 300 Size: 1/2 to 12 Pressure:PN25- PN100 Ends: Flanged, Socket weld, Butt weld, Threaded, Wafer, Lug. Operation: Electric actuated, Pneumatic actuated, Handwheel, Gear, Lever
Description- The UV Laser Marking with its wavelength 355nm is suitable for marking plastics (ABS, PA) due to a high repetition rate. The UV laser wavelength is suitable and versatile in marking a wide range of materials and is perfect for â??cold markingâ?? applications where heat zones are not allowed. UV Laser mark at very high speeds which are indispensable for short cycle times in industrial manufacturing environments. With high peak powers they are most suitable for fine marking and structuring without thermal impact on glass applications and/or ceramics. The UV laser marking will mark plastics and silicon materials without the need of additives and will also mark glass with drastically reduced risk of micro fracture. The excellent beam quality also affords this laser the ability to be utilized in micro marking applications such as electronics, circuit boards and microchips in addition to solar panels and precise medical marking applications. They also provide an excellent quality for classical laser marking applications and micro material processing. Features- Small beam diameter and fine marking line Good quality and high laser beam stability Complete machine stability, simple and easy operation Narrow pulse width, small heat affected zone, work-piece without damage Suitable for sensitive material as cold light source Laser directly acting on molecular chain with maximum extend to avoid thermal effect It works stably, applied in superbly precise marking, such as: LCD, wafer, chip ceramic, sapphire, precise surface marking of other materials,3C electronics, Lamps, food package, wire rod ,leather, ceramic, PCV, glass, Phone case, medicine bottle, fine marking on glass substrate, electric appliance marking and so on. Technical Specifications- Wavelength 335nm Laser Beam Mode TEM00 Average Power Up to 2W Positioning Visible Red Diode Light Input Power 115/230VAC 50/60Hz System Power Consumption < 950W Cooling Air Cooled, active thermo-electric/Water Cooled Operating Temperature Range 18 to 35C (64 to 95F) Humidity 10% to 85% Non-condensing STANDARD LENS CONFIGURATIONS FOCAL LENGTH 100 mm 65 mm X 65 mm (2.56 X 2.56) 160 mm 110 mm X 110 mm (4.33 X 4.33) 255 mm 175 mm X 175 mm (6.89 X 6.89)
FREE-Valves Bi directional knife gate valves are known as slurry gate valves. Its are bidirectional valve deals with flow in both directions, while offering zero leakage. The U shape peripheral seat design ensures full-port flow and non-clogging shutoff.The disc bottom of knife gate valve is made into a blade shape with the purpose to cut some soft materials such as fiber,pulp or wood pulp, and it also serves favorable closing and opening. Features: 1) Knife gate valve is Bi directional,zero leakage,withstanding high differential pressure and full bore valve with minimal seat cavity for maximum flow capacity. 2) No groove is designed on the valve seat,which prevents accumulating media on the sealing surface, and thus avoids sealing surface leakage or disc blockage cause by media accumulation. 3) The integrated body structure with precision casing. 4) U shaped resilient seat is embed into the body and is well connected with the gate,and the friction is reduced during the upward and downward movements of the gate.This greatly prolongs the using life of the seat and realized bi directional sealing. 5) Replaceable flexible wire reinforced elastomer seat ensures bi-directional zero leakage shutoff. 6) Full port flow path with minimal pressure drop achieved through full port valve design. Technical Specification: 1)Size Range: NPS2~NPS48,DN50~DN1200 2)Pressure Range: Class 150 /PN6 /PN10 3) Applicable Temperature.: 0~200 4) Connection Type: wafer 5) Sealing material: Rubber,PTFE 6) Body Material: Ductile Iron 7) Disc material:Stainless steel 8) Pressure test:GB/T13927, API598 9) Face to Face: GB/T12221, API609 10) Valve body : GB/T12224,ASME B16.34 Operating Mode: Hand wheel,Bevel Gear,Pneumatic,Electric,Hydraulic Application: 1. Mining, coal washing, iron and steel industry used for washing coal pipes, filter slurry pipes, discharging ash pipes, etc. 2. Purification system used for waste water, mud, sewage and water with suspended solids. 3. Paper industry used for any mixture of pulp, material and water of any concentration.
Structural Classification Of Thermal Fuse organic type metal shell temperature fuse is a combination, the composition of the structure are: 1. Pin (A), 2. Sealed resin, 3. Insulating ceramic, 4. Fine spring, 5. Star reed, 6. Coarse spring, 7. wafer, 8. temperature sensing block, 9. The housing, 10 Pin (B). When the temperature insurance is in normal operation, the current flows from the left lead to the sliding contact and flows through the metal housing to the right lead. When the external temperature reaches the predetermined temperature, organic matter can melt melt, the compression spring will become loose. That is, spring expansion, sliding contact (slidingcontact) and the left side of the separation. The circuit will cut off, the current between the sliding contact and the left lead is cut off. the temperature fuse will fail and can not be used again. 2, easy to melt alloy wire thermal fuse has ceramic shell and square shell, its temperature sensing element is a fusible gold. Product structure: is the axis of the symmetrical lead, fusible alloy wire, and resin mixture and insulated porcelain tube, plastic shell. When the temperature rise of the heating element is set to a temperature, the resin mixture begins to liquefy, when the melting point is reached, with the help of the resin mixture (increasing the surface tension of the melted alloy), has been molten alloy wire in the resin mixture under the action of tension, quickly to both ends of the wire as the center shrink into a spherical, and thus permanently cut off the circuit. Technical Parameters And terminology Of Thermal Fuses (1) Rated operating temperature (Tf): The temperature fuse is tested according to the standard method to change the temperature of its conductive state. According to IEC6091 standards-based security provisions, the temperature fuse must be operated within the rated operating temperature + 0 / -10 C (the Japan Electrical Supplies Act provides a tolerance range of ± 7 C). (2) Operating temperature Found: The temperature fuse is heated in the silicone oil tank at a rate of 0.5-1 C per minute, detection current is less than the fusing temperature measured at 10mA condition. It is the actual operating temperature of the temperature fuse. (3) Holding temperature (Th): When the temperature fuse passes the rated current, can hold for 168 hours without changing the maximum temperature of its conductive state. (4) limit temperature (Tm): Temperature fuse can withstand the maximum temperature for 10 minutes reconnection phenomenon never occurs. (5) Rated current (Ir): The maximum current that the temperature fuse can carry. (6) Rated voltage (Ur): Temperature fuse maximum operating voltage.