Completely characterize your 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 measurement 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
has this capability. 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.
Specification summary
| Measurement functions |
Z, Ø, L, C, Rac, Rdc, Q, D
Turns Ratio
Primary and secondary Leakage Inductance
Interwinding Capacitance
Resonant Frequency |
| Frequency ranges |
20 Hz to 3 MHz |
| Basic accuracy |
0.1% |
| Mode |
Analysis (graphing)
Telecom
Multi Frequency
Sequence |
| DC bias current |
1 mA to 1 A (internal)
Up to 125 A (using five 3265B DC Bias Units) |
| Interface |
GPIB |
| Measurement speed |
Up to 20 measurements/sec |
Printed output of test results
Using the parallel Centronics interface the user can directly print
test results including graphs for further analysis and archiving.
In addition, via the IEEE488 GPIB interface, the instrument can be
controlled from a PC and results can be read back for analysis
and storage. LabVIEW™
drivers are
available upon request or may be downloaded from this website providing
a base from which a user can develop a specific test application.
Bin sort
The bin sorting 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
3265B DC Bias Unit is used can deliver up to 25
A of DC bias current in steps of 0.025 A
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 25 mA 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 25 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
1009 DC Bias Fixture enables currents up to 50
A to be applied to an SMD inductor
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.
Technical Specifications
Operation modes
Impedance mode
Inductance (L), Impedance (Z), DC Resistance (Rdc) and Capacitance (C).
Series or parallel equivalent circuit
Loss term: Quality factor (Q),
Dissipation factor (D), AC Resistance (Rac) and Phase Angle (Ø)
Analogue scale (bar graph) with nominal, absolute and percentage% modes
Handler mode
Enables existing 4-wire scanners to be used
Functions as for impedance mode plus Turns Ratio
Transformer mode
Rdc of each winding, Primary or Secondary Leakage Inductance and Q,
Turns Ratio, Interwinding Capacitance.
Insulation between windings from either winding to screen/core is available
as an option.
Telecom mode
Provides derivation of Insertion Loss (IL) and Return Loss (RL) for
line matching transformers operating in the telephone speech band (100
Hz to 20 kHz). Values of line impedance (Zo) and termination (Rt) are
user selectable. Optional simulated damping network and series blocking
capacitor are user configurable.
Analysis mode
Measurement parameters and test conditions set using measurement mode.
Graphical sweep versus frequency, AC drive level or DC bias current
with selection of start, stop, step size, units and linear/log.
Multi-frequency mode
Measurement parameters and test conditions set using measurement mode.
Up to eight frequencies with absolute or percentage limits on major
term PASS/FAIL indications.
Test conditions
Low level AC drive
For measurement of L + Q, Ls + Rs,
C, Z, Turns Ratio and Leakage Inductance
Frequency range
20 Hz to 3 MHz interwinding capacitance, minimum frequency 1 kHz
Steps
Increments of 1% or better across range with approximately 1800 frequencies.
Accuracy of selected frequency ±0.01 %
Drive level
Source impedance 50 Ω
1 mV to 10 V 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.
DC bias current
1 mA to 1 A DC is available from internal, fast settling bias supply
over full frequency range Voltage compliance 20 V minimum
Safety interlock minimises operator exposure to high currents.
DC resistance
Low test level of 100 mV minimises heating of the device under test.
Short circuit current 10 mA
Insulation (option)
Test voltages of 100, 200 or 500 V DC, user selectable
Results can be displayed as a current or resistance value
Voltage accuracy ±3%
For user safety, short circuit current is limited to <2 mA
Bin Handler mode (option)
Sort to 1 of 10 bins using absolute or percentage limits.
Separate Pass/Fail output.
Up to 100 bin limit set-ups stored in non-volatile memory.
TTL interface to external bin handler via 25 way D type connector.
Telecom mode (option)
Drive level -28 to 16 dBm
Test time varies with level
Zo/Rt 50 to– 2000 Ω
Test time < 1.5 s typical
Measurement speeds
For impedance, turns ratio, DC resistance and insulation
4 speeds selectable: MAXimum, FAST, MEDium and SLOW
MAX (20 measurements per second) is for component sorting under IEEE
488.2 remote control.
FAST Approximately 10 measurements per second.
SLOW Approximately 1 per second for increased stability and accuracy
Measurement ranges
R 0.01 mΩ to >2 GΩ*
L 0.1 nH to >1000 H*
C 5 fF to >1 F*
Accuracy
Inductance/Rac/Z/Cp ±0.1 %**
Q ±0.1% (Q+1/Q)**
D ±0.001 (1+D2)**
Turns ratio ±0.1 %**
Rdc ±0.5 %
Insulation ±5 % (500 V test)
Insertion loss ±0.1 dB
Return loss ±1 dB
Basic accuracy varies with frequency, Zo, Rt, range and level.
General data
Input specification
Power supply 230V AC ±10% or 115V AC ±10% (selectable) 50 to 400 Hz
400 VA 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
8 front panel BNC sockets
2- or 4-wire (Kelvin) measurements with screen at ground potential
Equivalent circuit symbols on screen.
Separate terminals for primary and secondary connections. LEDs indicate
active terminals.
Remote control (option)
Conforms with to GPIB (IEEE488.2) and SCPI 1992.0
Printer output
Centronics /parallel printer port
Ambient conditions
Operating temperature range 0°C to 40°C.
Full accuracy 15°C to 35°C
Safety
Complies with the requirements of EN61010-1
EMC
Complies with EN50081-1, EN50082-1 generic emissions and immunity standards
by meeting with the requirements of EN55022, IEC801.2, IEC801.3 and
IEC801.4
Mechanical (approx. overall)
Height 150 mm (6")
Width 440 mm (17 3/8")
Depth 520 mm (20 1/2½")
Weight 11 kg (24 lbs 4oz.)
Order codes and options
3260B Precision Magnetics Analyzer
Supplied with user manual, power cable, spare fuses, power cable,
two transfer standard capacitors and safety interlock. |
|
1J3260B |
|
Options
|
| Insulation test (500V) |
|
add /N to part number |
| Analysis function (graphs) |
add /G to part number |
| LF Telecom function |
add /T to part number |
| Bin Handler |
add /D to part number |
|
Auxiliary unit
|
25A DC bias unit 3265B (1 MHz)
Supplied with user manual, power cable, spare fuses, 4 x BNC
to BNC links, daisy chain link, rack mounting ears (unit needs
rear support) and bus bars. |
|
1J3265B |
|
25A DC bias unit 3265BQ (3 MHz)
Supplied with user manual, power cable, spare fuses, 4 x BNC
to BNC links, daisy chain link, rack mounting ears (unit needs
rear support) and bus bars. |
|
1J3265BQ |
|
Accessories
|
| 1009 DC Bias Fixture |
|
1J1009 |
| Rack mounting kit, 3U x full width |
1EXA20230 |
Kelvin clips (fine jaws).
(2 sets recommended for transformer tests) |
1EVA40100 |
| Kelvin clips (large jaws) |
1EVA40180 |
BNC to 4-terminal component fixture
(Recommended above 500 kHz) |
1EV1006 |
| 4-terminal lead set |
1EV1505 |
| SMD Tweezers |
1EVA40120 |
|
