Wayne Kerr Electronics Pvt. Ltd Kaushambi, Ghaziabad, Uttar Pradesh

Overview The 7010 Transfer Standard Kit consists of conventional body transfer standards which must be used when extension cables or different fixtures (to the 1011 supplied with the unit) are used with a 6500. They allow the open circuit, short circuit and HF compensation routines to be performed.   Compatibilities Wayne Kerr 6500 Series

Overview The 7012 terminator kit must be used with fixtures which do not have the 6500 terminating components built into them. The kit consists of 4 BNC female to male adaptors.   Compatibilities Wayne Kerr 6500 Series

Overview 600 mm extension cable terminated with four BNC connectors at the instrument end and four individual crocodile clips at the component end.   Compatibilities Wayne Kerr 4300 Series Wayne Kerr 6400 Series Wayne Kerr 3255 Series Wayne Kerr 3260 Series Wayne Kerr 6500 Series

Overview The 1012 fixture makes a 2-terminal measurement to end contact surface mount devices and is suitable for medium and high impedance devices.   Compatibilities Wayne Kerr 4300 Series Wayne Kerr 6400 Series Wayne Kerr 6500 Series

Overview Remote test fixture for axial, radial or bandoliered components. Complete with cable terminating in four BNC connectors   Compatibilities Wayne Kerr 4300 Series Wayne Kerr 6400 Series Wayne Kerr 3255 Series Wayne Kerr 3260 Series Wayne Kerr 6500 Series

Overview Chip component tweezers for contacting leadless devices. The cable is terminated with BNC connectors.   Compatibilities Wayne Kerr 4300 Series Wayne Kerr 6400 Series Wayne Kerr 3255 Series Wayne Kerr 3260 Series Wayne Kerr 6500 Series

Overview The 1905A ead with two sprung needle probes is used to access surface mounted devices on circuit boards and for interfacing to hybrid components and chip components on tape.   Compatibilities Wayne Kerr 4300 Series Wayne Kerr 6400 Series Wayne Kerr 3255 Series Wayne Kerr 3260 Series Wayne Kerr 6500 Series

Overview   Completely characterize components graphically At the design stage of component development it is vitally important to understand how the component performs under different operating conditions. This might include operation at diverse frequencies, AC drive levels or DC bias currents. The 3260B Precision Magnetics Analyzer can plot any of the measurement functions, such as inductance (L) or impedance (Z), (including secondary term) against frequency, AC drive level or DC bias current. Frequency sweeps within the range 20 Hz to 3 MHz can be selected. There is a choice of either linear or logarithmic frequency displays. 3260B is especially suitable for measuring parameters on telecom transformers. The selected parameter and its secondary value are presented graphically. AC drive levels can be set between 1 mV and 10 V. DC bias current can be set from 1 mA to 1 A internally. Using external 3265B 25 A DC Bias Units bias currents can be set to a maximum of 125 A. Measure Insertion Loss and Return Loss on telecom transformers With the dramatic growth of PCs connected to the telephone system for Internet access has come the requirement to measure Insertion Loss (IL) and Return Loss (RL) of line matching transformers. The 3260B Precision Magnetics Analyzer not only measures IL and RL but the instrument also allows the user to enter the values for terminating resistance or impedance, if complex, and to select a damped network or blocking capacitor if required. The binning function allows component manufacturers to sort components in up to ten bins. Sorting is carried out either by absolute values or by percentage of values. Component tests with up to 125 A DC bias current To evaluate components at high currents up to 125 A the optional 3265B DC Bias Unit is used. 25 A of DC bias current can be set in steps of 0.025 A with one unit whilst up to five units can be used in parallel to give up to 125 A DC bias current. The standard 3260B Precision Magnetics Analyzer can provide an internal DC bias from 1 mA to 1 A. The 3265B has a number of safety and protection features including a safety interlock system to protect the user against back EMFs. It is also fully protected against over temperature, excess voltage drop and sense lead failure. SMD inductor tests up to 50 A With the addition of the 1009 DC Bias Fixture DC bias currents up to 50 A can be applied to an SMD inductor during component test in order to evaluate the devices thoroughly at the operational bias currents. The fixture operates with one or two 3265B Wayne Kerr DC bias units and a 3260B Precision Magnetics Analyzer. Four rear panel mounted BNC connectors and two captive high current cables ensure simplicity and ease of use with the 3265B. Interchangeable component test carriers ensure that the 1009 DC Bias Fixture may be used with a wide variety of devices. If a device package is not supported by one of the standard carriers then a custom carrier design service is available. Stable component fixturing ensures high accuracy and repeatable measurements. Enclosed fixtures, with safety interlocks, minimises risk to operators.   Key Features Wide frequency range of 20 Hz to 3MHz 0.1% basic accuracy Internal 1A DC bias current Up to 125A of DC bias current Bin Handler Mode (option) sort components in up to 10 bins Analysis mode – graph measured parameters against Frequency, AC Drive Level & DC Bias Current Z, L, C, Rac, Ø, Q, D, Rdc & Turns Ratio Straightforward intuitive operation Print test results IEEE 488 GPIB control with LabVIEW™ driver  

Driven Type : Electric

Color : Light White, Sky Blue

Condition : New

Automation Grade : Automatic, Manual, Seni Automatic

Certification : CE Certified

Feature : Accuracy

Type : Magnetic Analyzer

Weight : 10-20kg

Overview The 6430B and 6440B Precision Component Analyzers provide thorough and accurate testing of any passive component to high resolution. In particular, for capacitor manufacturers, the instruments provide capabilities for both fast automatic production testing and complete design characterisation. Users include designers of passive components, manufacturing test, designing and testing materials as well as circuit designers who are evaluating component characteristics. The resonant frequency can be automatically calculated for any component together with its equivalent series or parallel circuit at that frequency. Both instruments are designed for high performance testing of components, with a basic accuracy of 0.02%, at a low price. 6430B is the entry level instrument covering to 500 kHz whilst the fully featured 6440B covers to 3 MHz. To evaluate a component performance at high speed over a specified range of frequencies, multi frequency mode is used. In this mode the operator decides which parameter is to be measured and at what frequencies. The 6430B and 6440B does the rest, creating an easy to read table on the large LCD display. Each test can have a simple Pass/Fail display. Fast automatic multi-frequency production testing of capacitors The 6430B and 6440B deliver fast automatic testing of capacitors in a production environment. The user is able to select measurements from any of the instruments range and perform up to eight different tests on each component. Tolerance bins can be selected for each of the tests. The instrument selects the overall bin after completing all the tests. The measured results can be output over the GPIB or to a printer. The test sequence is triggered by external input, GPIB or the front panel. Once the test sequence is complete the bin is selected and the measured data is made available on the GPIB. This process takes place at very high speed allowing a dual frequency test to be completed in approximately 180 ms. Pass/Fail data in statistical form is available to the user and can be viewed on the LCD display, printed to a local printer or exported over the GPIB. Protection against charged capacitors High precision measuring instruments can be sensitive to charged capacitors and if connected can lead to costly repairs and unacceptable downtime. Wayne Kerr Electronics have identified this problem and developed a solution that protects the test equipment from charged capacitors. In this event, the protection unit blows fuses, which can be easily and cheaply replaced, whilst the test equipment remains unharmed and continues to provide reliable accurate performance. The protection unit will protect the test equipment from up to 25 Joules of charged energy.   Key Features Fast automatic capacitor testing High measurement accuracy on dissipation factor Fast measurement speed 0.02% basic measurement adccuracy Comprehensive measurement functions, Graphical sweep on all measurement functions Characterize components to 3 MHz Large LCD Display and intuitive user interface Unbeatable price  

Overview The 1J1022 Liquid Fixture is used to make accurate dielectric constant and impedance measurements of liquid materials. When used with a Wayne Kerr 6500 analyzer then the 1J1002 4-2 BNC Converter (available separately) must also be used.   Technical Specification Measurement Frequency: 20 Hz to 30 MHz Necessary Liquid Volume: 3 ml Prohibited Liquids: Acid oxidants and salt oxidants   Compatibilities Wayne Kerr 6500 Series

Overview A range of easy to use LCR meters with comprehensive measurement functions. Accurate and fast measurements may be made from 20Hz to 1MHz (43100) making the 4300 series the ideal choice for many applications in the test or production environments. Two test mode enables consecutive measurements to be made with two different instrument parameters set. For example two AC measurements may be made at different frequencies or an AC and a Rdc measurement may be made. Measurement limits may be set in Scale or Operator modes. An optional component Binning module may be specified which provides an interface to component sorting machines. Limits set in the instrument Binning mode enable a wide range of components to be sorted while the choice of isolated or non-isolated modules give interface flexibility. The optional Scaleizer handler module provides PASS/FAIL and data synchronisation relay outputs for limit checked measurements. Two output signal configurations are available. Up to 20 measurements set ups can be saved with user defined names for later recall. All 4300 series instruments may be externally controlled using the standard RS232, GPIB, USB or LAN interfaces.   Key Features Test components from 20Hz to 1 MHz (43100) 0.1% basic accuracy < 25ms measurement time Parameters C, L, Z, Y, X, B, Rac, Rdc, G, Q, D, Ø Single or two test operation Up to four parameters may be displayed (two test mode) Drive level from 10mV to 2Vrms Scale mode with measurement target limits Operator mode with target limits +2V internal or up to ±40Vdc external bias Measurement setup Save and Recall GPIB / IEEE-488, USB, LAN and RS-232 interfaces Handler Scaleizer module (Optional) Binning (Optional) Protection against charged capacitors Small size and light weight  

Type : Lcr Meter

Application : Indsustrial Usage

Color : Grey, White

Feature : Accuracy, Durable, Light Weight, Stable Performance

Display Type : Digital

Frequency : 50Hz-65Hz

Automatic Grade : Automatic, Manual

Power Source : Electric

Warranty : 1Year

Brand Name : Wayne Kerr Electronics

Operating Temperature : 0-45Deg

Overview Wayne Kerr Kelvin Clips consist of a 0.6 m cable assembly terminated with four BNC connectors at the analyzer end and a pair of 4-terminal Kelvin clips at the Device Under Test end.   Key Features 1EVA40100 Fine Jaw Kelvin Clips have fine-pointed jaws allowing connections to be made where clearance are minimal or there are fine wires.   Compatibilities Wayne Kerr 4300 Series Wayne Kerr 6400 Series Wayne Kerr 3255 Series Wayne Kerr 3260 Series Wayne Kerr 6500 Series Wayne Kerr 3265 Series   Technical Specification Frequency: 20 Hz to 3 MHz All analyzers must have open-circuit and short-circuit trims performed before using Kelvin Clips. HF Compensation must also be performed if available. Connection to Analyzer: 4-BNC 0.6 metre cable assembly Connection to DUT: 4-terminal Kelvin Clips (defined by part number) Maximum jaw opening:

Overview Insulation Measurements The Danbridge Megohmmeter program is designed for fast measurement of leakage currents and insulation resistance (IR) of various components, cables, materials, etc. The fast and powerful measurement cycles, the high accuracy, and the broad measurement range make the Danbridge Megohmmeters to one of the most versatile insulation measurement instruments on the market today. Main applications: Fast and precise testing of capacitors in automatic sorting machines. IR testing of Film / Foil capacitors up to 500V DC: Most Film / foil capacitors are being IR tested by test voltages up to 500V DC. As charging means time and time is money, Danbridge has developed a unique feature in the Megohmmeter DB622. Simply, this instrument has 2 independent high voltage (HV) power supplies, one for powerful pre-charge (up to 200mA) and one for fine-charge (up to 80 mA). Consequently you can optimize your sorting machine by connecting the pre-charge HV power supply of DB622 to some pre-charge stations and the fine-charge to approximately the double number of stations. Then your capacitors are charged enough during the cycle time to be correctly measured (with sorting output) and to maintain a high quality and high output. By using Danbridge equipment, you secure high return of investment on the sorting line. Further technical information is available from Danbridge or you may study our simple sketch of how to install our double HV power supply Megohmmeters on automatic sorting machines. Please not that Danbridge installation team is able to assisting you getting the instrument to work correctly. IR testing of Film / Foil capacitors up to 1kV DC: For Film / foil capacitors for IR test with voltages up to 1kV DC, Danbridge has developed a similar Megohmmeter as mentioned above, the DB623 with 2 x 1kV power supplies with facilities as explained for DB622. Just the 2 independent HV power supplies have a maximum voltage of 1000V. The pre-charge supply can deliver up to 100mA, and the fine-charge supply can deliver up to 80 mA). Please note that for capacitance and tan ∂ testing of film capacitors, an excellent match to DB622 / DB623 and the old DB602 is the Capacitance Tester DB232. Clik on the link and learn more about the fast Capacitance Tester with the unique dual frequency facility. IR testing of HV capacitors: Insulation Testing of HV capacitors was earlier more complicated. Today Danbridge have a solution for DC testing up to 2kV by using DB625-2kV or up to 5kV by using DB625-5kV. These Megohmmeters are designed with one HV power supply only, but probably with the markets most powerful charge capability of up to 45mA @2kV and 18mA @ 5kV. Again time is money, so why waste costly test time by using less advanced equipment. IR testing of multiple capacitors In order to reduce IR test time Danbridge can supply an IR scanner DB640 with facilities to charge up to 40 channels almost simultaneously. The DB640 shall be controlled from a Danbridge Megohmmeter DB621 or the HV Megohmmeter DB625. The idea is to charge all channels one time in parallel and thereafter by a quick scan to get results from up to 40 capacitors. By adding modules (each of 4 channels) the DB640 can be optimised for any application up to 40 channels. The scanner has sorting output, GO / NO GO for each channel installed, making the system very suitable for automatic IR testing of for instance multiple ceramic capacitors in multi-channel automatic sorting machines or manual laboratory testing. Examples of typical applications: Test of leakage current in capacitors, measurement of high-voltage resistors, test of insulation in cables and harness, testing leakage current in high voltage generators and motors, and test of the electrical insulation value of various materials, e.g. many different plastics. The Megohmmeters are widely used at power plants and in the medico-industry. For testing of large items such as electrical motors, generators, cables, etc. using test voltages up to 1kV, Danbridge has developed the Megohmmeter DB620, with floating HV power supply. By having the HV power supply floating, it is easy and safe to test HV up to 1kV @ ground level and at the same time measure leakage current or insulation resistance of the circuits, cables, connectors inside the test object. In order to understand this principle better, please contact Danbridge sales@danbridge.dk for further information or study the simple sketch for this application.   Key Features High speed testing 45msec High accuracy ± 2% to 1 TΩ Measurement Range from 10kΩ up to 1 PΩ (Peta = 1.000.000 Giga
) Leakage current down to 1pA, Accuracy ± 2%, ± 1pA Test Voltages: DB620 & 621, 10Volt to 1kV in 1V steps DB622, 10Volt to 500V DB623, 10Volt to 1000V DB625, 50Volt to 5000V Contact Check Function Powerful charge capability Charge current: DB620 & 621 – 2/ 25/100mA DB622/23 double power supplies, pre-charge 200/100mA and fine charge 2 / 25mA DB625 max 5kV version 20mA, DB625 max 2kV version 45mA 4 ranges and/or auto range 5 Programmable Limits Floating power supply on DB620 for HV testing on ground level Designed to be used with 40 channel IR Scanner type DB640

Overview Completely characterize components with comprehensive parametric tests The 3255B range of inductance analyzers are able to accurately characterise devices in a clear and simple manner. The inductance analyzers are available in three versions 3255BL (200kHz), 3255B (500kHz) and 3255BQ (1 MHz). At the design stage of component development it is very important to analyse how components performs under different operating conditions. This includes operation over a range of frequencies, AC drive levels or DC bias currents. The AC drive level can be set between 1 mV and 10 V. DC bias current can be set from 1 mA to 1 A internally (optional). Using the external 3265B range of DC Bias Units bias currents can be set to a maximum of 125 A. Printed output of test results Using the parallel Centronics interface the user can directly print all test results for further analysis and archiving. In addition, via the optional GPIB interface, the instrument can be controlled from a PC and results can be read back for analysis and storage. LabVIEW™ drivers are available on request or can be downloaded from the web site, www.waynekerrtest.com, providing a base from which a user can develop a specific test application. Bin sort The binning function allows component manufacturers to sort components in up to ten bins. Sorting is carried out either by absolute values or by percentage of values. Component tests with up to 125 A DC bias current The 3255B and 3255BQ enable components to be measured at up to 125 A when optional 3265B DC Bias Units are used. Extended DC bias capability is also available with the 3255BL which uses the 3265B/5A or 3265B/10A to extend the DC bias current available to a maximum of 50A. Up to five of the DC Bias Units can be used in parallel to give a wide range of DC bias currents. Internal DC bias is available as an option giving DC bias currents from 1 mA to 1 A. The 3265B has a number of safety and protection features including a safety interlock system to protect users against back EMFs. It is also fully protected against over temperature, excess voltage drop and sense lead failure. SMD inductor tests up to 50 A With the addition of the 1009 DC Bias Fixture DC bias currents up to 50 A can be applied to an SMD inductor during component test in order to evaluate the devices thoroughly at operational bias currents. The fixture operates with one or two 3265B/25A Wayne Kerr DC bias units and a 3255B Inductance Analyzer. If two 3265B/25As are used then the optional 5-328-2005 high current lead set will be required. Four rear panel mounted BNC connectors and two captive high current cables ensure simplicity and ease of use with a 3265B. Interchangeable component test carriers ensure that the 1009 test fixture may be used with a wide variety of different devices. Blank carriers are available which enable device specific test fixtures to be developed or alternatively a carrier design and manufacturing service is available. Stable component fixturing ensures high accuracy and repeatable measurements. Enclosed fixtures, with safety interlocks, minimises risk to operators.   Key Features 3 models: 3255BL, 3255B, and 3255BQ Wide frequency range (20 Hz to 3MHz) 0.1% basic accuracy Z, L, C, Rac, Ø, Q, D, Rdc & Turns Ratio Internal 1 A DC bias current (option) Up to 125A of DC bias current with 5 x 3265B Bin function (option) Multi-frequency mode Fast measurement speed (up to 20 measurements per second) Straightforward intuitive operation Print test results GPIB control with LabVIEW™ driver Technical Specification Measurement Function Z, Ø, L, C, Rac, Rdc, Q, D, turns ratio Frequency Range 20 Hz to 200 kHz (3255BL) 20 Hz to 500 kHz (3255B) 20 Hz to 1 Mhz (3255BQ) Drive Level Source impedance 50 ? 1 mV to 10V rms into open circuit 50 µA to 200 mA rms into short circuit Automatic Level Control (ALC) maintains level applied to DUT at ±2%, ±1 mV of set voltage or ±2%, ±0.1 mA of set current, reduces to ±4% below 100 Hz. Internal DC Bias (Option) 1 mA to 1 A Measurement Speeds 4 speeds selectable (20/sec max) Measurement Ranges R 0.05 mΩ to > 2 mΩ L 1 nH to >1000H C 0.01 fF to > 250mF Turn Ratio 100:1 to 1:100 Accuracy L/Rac/Z/Cp ±0.1% Q ±0.1% (Q+1/Q) D ±0.001 (1+ D2) Rdc ±0.5% Input Specification Power supply 230 V AC ±10% or 115 V AC ±10% (selectable) 50 to 400 Hz 150VA maximum consumption Display High contrast monochrome LCD 320 x 240 dot with CFL back lighting Visible area 115 x 86mm Viewing angle 45° Measurement Connections 4 front panel BNC sockets 4-wire (Kelvin) measurements with screen at ground potential Equivalent circuit symbols on screen

Overview The 6500B series of Precision Impedance Analyzers provide precise and fast testing of components at frequencies up to 120 MHz. Basic measurement accuracy is ±0.05% making the instruments the best in the class. Display formats available include series or parallel equivalent circuit. An Equivalent Circuit Anlysis function is available . This allows modelling and curve fitting to various equivalent circuit models. Four types of three component and a four component model are available. The instrument will calculate the nearest equivalent circuit parameters for the measurement traces and revise the results. Alternatively the component parameters may be entered and the instrument will plot the frequency characteristics. For single frequency measurements a meter mode is available. Option feature – Polar and Complex Plots & Multi Measurement Mode Variable drive and bias levels AC drive levels up to 1V or 20mA can be selected to evaluate components in realistic operating environments. The /D1 DC bias option provides 0 to +40V dc bias voltage and 0 to +100mA dc bias current while the /D2 option provides -40V to +40V dc bias voltage. External control The GPIB interface is used to control the instrument and read back measured values for applications such as quality control or for archiving purposes. An Ethernet interface similarly allows the instrument to be controlled and to send out data – allowing it to be integrated into many test environments. Wide range of interfaces Four front panel BNC connectors permit three or four terminal connections with the screens at ground potential. The 1J1011 component fixture, supplied as standard, ensures optimum performance when measuring a wide range of components of leaded components and devices. 1J1012 (2 Terminal) and 1J1014 (4 Terminal) fixtures allow connection to surface mount devices. Protection against charged capacitors   Key Features Precise high frequency impedance measurements Characterize components from 20 to 120 MHz Wide range of models with maximum frequencies from 5MHz (6505B) to 120MHz (65120B) 0.05% basic measurement accuracy 0 to +40V DC bias voltage and 0 to 100mA DC bias Current (Option) ±40V DC bias voltage (Option) Comprehensive measurement functions Easy to use with large TFT touch screen Clear graphic displays aids measurements Traditional LCR Meter mode for single and repetitive measurements Resonance Search Equivalanct Circuit Analysis (Option) Intuitive user interface Fully programmable over GPIB and LAN Polar and Complex Plots available (option) Multi Measurement Mode available (option) Keyboard and mouse optional control Competitively priced

Certification : CE Certified

Application : Industrial Use

Condition : New

Display Type : Digital Display

Packaging Type : Cartons

Phase : Single Phase

Voltage Type : AC

Overview The Danbridge non-destructive High Voltage Insulation Testers meet the demands for a gentle method of testing insulation condition and detecting leakage currents while protecting hardware, components and materials. Danbridge have two High Voltage Insulation Testers depending on requirements – JP30A can test using up to 30k volt, while JP36A is used when voltages up to 36k volt are desired. By using a DC high voltage-low energy test, weaknesses and faults are easily located without damaging the surrounding electronics or materials. Detection of ionization is possible by sound signal. Typical applications are: Insolation test of cables, generators, electrical motors, plastics, medico instruments, weldings, vacuum relays, power supplies, aviation equipment and many naval components.   Key Features Hauptmerkmal Minimal Discharge Energy: Output current limited to protect personnel Guard Terminal: Prevents stray currents from Influencing leakage current measurements Adjustable Output Voltage: The test voltage is continuously variable from almost zero to maximum output voltage Audible Ionisation Detection: With Active LP-Filter and Built-in loudspeaker Effective Output Ionisation Limitation: Essential for testing delicate circuits. No damage to the material if partial break-down or flash-over should occur External Output: For meter voltage indication and recording External HV switch: Panel connector for external switching Useable as kV Meter

Application : Measuring Use

Color : Sky Blue

Feature : Easy To Use, Proper Working, Superior Finish

Voltage : 110V, 220V

Condition : New

Frequency : 50Hz

Power Source : Electric

Warranty : 1year

operation current : Single Phase

Overview Accuracy and versatility makes the 6500P Series HF LCR Meters the ideal choice for many different tasks and applications in manufacturing and test. The wide range of frequency specifications means that a model can be selected that best meets application requirements and within budget. High measurement accuracy Capacitance, inductance and impedance basic accuracy is an excellent ±0.05%. Dissipation factor accuracy is ±0.0005 and the quality factor accuracy is ±0.05%. Variable drive and bias levels AC drive levels up to 1V or 20mA can be selected to evaluate components in realistic operating environments. The /D1 DC bias option provides 0 to +40V dc bias voltage and 0 to +100mA dc bias current while the /D2 option provides -40V to +40V dc bias voltage. External control The GPIB interface is used to control the instrument and read back measured values for applications such as quality control or for archiving purposes. An Ethernet interface similarly allows the instrument to be controlled and to send out data – allowing it to be integrated into many test environments. Wide range of interfaces An external monitor or projector may be connected to the instrument. The ability to provide a large screen display is invaluable in production environments or for teaching and training. Instrument control from both a keyboard and mouse is available. Any keyboard or mouse, with either PS/2 or USB interfaces, can be simply connected to provide an alternative method of instrument control and operation. Data storage and retrieval All measurement and setup data can be stored using the Ethernet interface or a USB flash memory (supplied as standard). Setup data Up to 20 instrument setups may be stored locally for each mode. Bin handling The /B1 option (non-isolated 5V) or /B2 option (isolated 24V) signals are available through a 25-way D-type connector. 10 bins can be set using absolute or percentage limits. Printer outputs Hard copy printouts can be obtained in a number of ways including direct to an HP-PCL compatible graphics printer or Epson compatible text/ticket printer. A networked HP-PCL compatible printer may also be used via Ethernet connection. Component connections Four front panel BNC connectors permit three or four terminal connections with the screens at ground potential. The 1J1011 component fixture, supplied as standard, ensures optimum performance when measuring a wide range of components of leaded components and devices. 1J1012 (2 Terminal) and 1J1014 (4 Terminal) fixtures allow connection to surface mount devices. Protection against charged capacitors High precision measuring instruments can be damaged by charged capacitors which can cause costly repairs and unacceptable downtime. All the models in the range incorporate protection against charged capacitors. Comprehensive and precise component tests at higher frequencies The 6500P series capabilities are best summarised by “Comprehensive and precise component tests at higher frequencies”. The instruments are the perfect solution for those who have demanding component measurement needs.   Key Features Precise high frequency impedance measurements Characterize components from 20 to 120 MHz Wide range of models with maximum frequencies from 5MHz (6505P) to 120MHz (65120P) 0.05% basic measurement accuracy Comprehensive measurement functions 0 to +40V DC bias voltage and 0 to 100mA DC bias Current (Option) ±40V DC bias voltage (Option) Easy to use with large TFT touch screen Clear graphic displays aids measurements Resonance Search Intuitive user interface Fully programmable over GPIB Keyboard and mouse optional control Competitively priced

Overview The 6565 HF DC Bias Unit is intended to be used with a Wayne Kerr 6500 analyzer, either the 6500B Precision Impedance Analyzer or the 6500P HF LCR Meter. Its function is to provide a source of DC bias current through the Device Under Test (DUT) while the analyzer is making AC measurements. Each 6565 unit can provide up to 10 A of DC current, and up to six 6565 units can be connected in parallel to supply a maximum 60 A. A digital ammeter on the front panel allows the user to see the dc bias current value and an indicator LED shows when the bias current is enabled. High current 50Ω coaxial cable is used to carry the DC bias current from the 6565 unit to the fixture. The measurement signal from the 6500 analyzer front panel is connected to the fixture using a dedicated cable, a control cable connects the rear panels of the 6500 and 6565, and a safety interlock cable is connected from the fixture to the rear panel of the 6565. There are 3 models in the 6565 series. The models are defined by their frequency range as follows: 6565-05             20 Hz to 5 MHz 6565-30             20 Hz to 30 MHz 6565-120           20 Hz to 120 MHz   Any 6500 analyzer can be used with any 6565 unit. The maximum measurement frequency of the system will be determined by the instrument with the lower maximum frequency. For example, a 120 MHz 65120P used with a 5 MHz 6565-05 will have a maximum measurement frequency of 5 MHz The 6500 analyzer controls the 6565 unit. The DC bias current is set as part of the 6500’s measurement setup and the 6565’s status and warning messages are shown on the 6500’s display. A common wound component measurement with the 6500B/6565 system is to measure the value of inductance as the DC Bias Current through the DUT is swept from 0A to the DUT’s rated maximum current. Another common technique is to use the Reference Trace function on the 6500B Precision Component Analyzer. This allows frequencies sweeps performed at different DC bias current levels to be instantly displayed and compared on the 6500B’s display, as shown in the example screenshot below. Frequency sweeps for Impedance and Phase Angle for 0 A and 10 A DC Bias Current     Key Features No comparable system is currently available from other manufacturers Allows measurements up to 120 MHz to be made with 40 A DC Bias Current flowing through the Device Under Test Measurements up to 15 MHz can be made with 60A DC Bias Current 6500B analyzer allows measurements to be made while sweeping DC Bias Current in value Frequency swept measurements with different DC Bias Currents can be compared using the 6500B Reference Trace facility Wayne Kerr fixtures provide a safety interlock circuit and other protection circuits to protect both the operator and the equipment under fault conditions

Overview Defective components are not only unreliable, they are also non-linear. Therefore, effective quality control can be carried out by measuring the distortion of a pure sinewave current through the component. The Danbridge CLT System determines the distortion on the 3rd harmonic, and takes this as an indicator of the reliability and quality of the component. By measuring a component’s nonliniarity  up to the median value of distortion in a batch of components it is possible to quickly determine pass or fail of the component. The measuring method of the CLT System offers a number of advantages compared to other methods of reliability testing. One important feature is the measurement speed which facilitates 100 % production test. Typical applications: Test of metal-film resistors, capacitors, screening of audio-grade components, and noise measurements of electrical contacts. Further, the 3rd harmonic methode is approved by International Electronical Comission Europe,: publication IEC-440 technical file of electronic industries association of Japan: RCF-2003 Departments and agencies of the department of defence, USA: MIL-PRF-55182H   Key Features 10 kHz voltage up to 1000 V @ 4 VA More than 30 components per second Impedance range from below 100Ω to more than 3 MΩ Third harmonics below -160 dB Non-sensitive to hum Fibre optical communication Easy IEC 440 standard settings IEEE 488 (GPIB) and RS232c interfaces Programmable rejection limits CE approved

Overview The 1025 probe allows a 6500 to make ground referenced impedance measurements. In normal use the 6500 is unable to measure components which have one terminal directly referenced to ground, but the 1025 Probe is the solution to this restriction.   Compatibilities Wayne Kerr 4300 Series Wayne Kerr 6500 Series

Overview The 1026 fixture is used with 6565 dc bias units to mount conventional DIL devices for testing up to 20A   Compatibilities Wayne Kerr 6565 Series Wayne Kerr 6500 Series

Overview The 1020 Fixture is used with the 6500 series, and when used with the /K Materials Test firmware option allows the permittivity of the Material Under Test (MUT) to be calculated automatically.It allows both the Contacting Electrode and the Non-contacting Electrode Methods to be used up to a maximum frequency of 30 MHz.   Compatibilities Wayne Kerr 4300 Series Wayne Kerr Series 6400 Series Wayne Kerr 3255 Series Wayne Kerr 3260 Serie Wayne Kerr 6500 Series

Overview Precise and Fast Testing of Resistors has during many years been one of the really strong points of Danbridge suite of test equipment. The new DC Resistance Bridge DB502 is one of the most precise and long time stable DC resistance bridges in the world market. Further the DB502 has built-in dual processor technology making the instrument ultra fast with measurement speed down to < 10msec including bin sorting output. Facilities such as Contact Check, Hum Rejection Mode, Fast Thermo Voltage Compensation and fast Data Communication, makes the DB502 very suitable for exploiting the high speed of modern SMT sorting machines and for securing a profitable investment. As a new facility, the DB502 has an analogue output designed for precise and fast laser trimming of resistors. We will be pleased to mail you further information regarding this application. If you are using old Danbridge resistance testers, DB502 is the logic choice for replacing these. Especially the DB502 has built-in DB501 mode, making it fast and simple to replace the old DB501 Resistance Bridges which are no longer supported. By exchanging old Danbridge equipment with new, we are able to offer you buy-back prices for the old instruments as well as flexible payments or leasing for similar new equipment. Please note that for Reliability Testing of Resistors, by 3dr Harmonic Distortion Method also called THI, Danbridge can offer an excellent match to DB502 and the old DB501 by Component Linearity Tester CLT10 or for low impedance testing the CLT20. By using 3dr Harmonic Distortion Method as recommended in IEC440 and MIL-PRF-55182H you will secure high reliability of your good resistors. Examples of typical applications: High Speed and very precise DC test of resistors in sorting machines Manual testing of quality resistors and resistive elements in laboratories Reference DC Resistance Bridge in Quality Control Departments   Key Features Measuring Speed:

Component tests up to 125 A DC bias current To evaluate components at currents up to 125 A the 3265B DC Bias Units are used with either the Wayne Kerr 3255B series of Inductance Analyzers or the 3260B Precision Magnetics Analyzer. When one 3265B/25A or 3265BQ/25A DC Bias Unit is connected to an instrument up to 25 A of DC bias current can be set in steps of 25 mA with one unit. Additional DC Bias Units can be added such that with five units connected in parallel it is possible to set DC bias currents up to a  maximum of 125 A DC. The 3255BL may only be used with the 3265B/5A and 3265B/10A, 5A and 10A DC bias units. Multiple instruments may be connected in parallel to give a maximum DC bias current of up to 50A which may be set in steps of 25 mA. The instruments have a number of safety and protection features including a safety interlock system to protect the user against back EMFs. They are also fully protected against over temperature, excess voltage drop and sense lead failure. SMD inductor tests up to 50 A With the addition of the 1009 DC Bias Fixture DC bias currents up to 50 A can be applied to an SMD inductor during component test in order to evaluate the devices thoroughly at the operational bias currents. The fixture operates with either one or two 3265B DC bias units and a 3260B Precision Magnetics Analyzer. The optional 1009 high current lead set will be required if two 3265B/25As are used. Four front panel mounted BNC connectors and two captive high current cables ensure simplicity and ease of use with a 3265B. Interchangeable component test carriers ensure that the 1009 DC Bias Fixture may be used with a wide variety of devices. Blank carriers are available which enable device specific test fixtures to be developed or alternatively a carrier design and manufacturing service is available.   Key Features 2 Models: 3265B/25A, and 3265BQ/25A Enhance usability of Wayne Kerr Inductance Analyzers 3255B, 3255BQ, and Precision Magnetics Analyzer 3260B Testing wound devices under application conditions 25 mA to 25A of DC bias current in 0.025 A steps Up to 11 V DC compliance voltage Applicable for measurement functions L, R, D, Q, Z Wide frequency range of 20 Hz to 3MHz 0.1% basic accuracy 4 or 2 terminal measurements Up to 5 bias units may be connected in parallel to provide five times the output current Up to 3 MHz and 50A is available when two 3265BQs are used Safety interlock to protect operator from back-EMFs Easily rack-mountable with inductance analyzer