E4980A-301 [KEYSIGHT]
Precision LCR Meter;型号: | E4980A-301 |
厂家: | Keysight Technologies |
描述: | Precision LCR Meter |
文件: | 总38页 (文件大小:1698K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Keysight Technologies
E4980A Precision LCR Meter
20 Hz to 2 MHz
E4980AL Precision LCR Meter
20 Hz to 300 kHz/500 kHz/1 MHz
Data Sheet
mpliant to
LXClass C specification
02 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
All specifications apply to the conditions of a 0 to 55 °C temperature range, unless
otherwise stated, and 30 minutes after the instrument has been turned on.
Definitions
Specifications (spec.): Warranted performance. Specifications include guardbands
to account for the expected statistical performance distribution, measurement
uncertainties, and changes in performance due to environmental conditions.
Supplemental information is provided as information that is useful in operating the
instrument, but is not covered by the product warranty. This information is classified
as either typical or nominal.
Typical (typ.): Expected performance of an average unit without taking guardbands
into account.
Nominal (nom.): A general descriptive term that does not imply a level of performance.
When measurement conditions fall under multiple categories in a table, apply the
best value.
How to Use Tables
For example, basic accuracy Ab is 0.10% under the following conditions;
Measurement time mode SHORT
Test frequency
125 Hz
Test signal voltage
0.3 Vrms
The E4980A is the model number of the 20 Hz to 2 MHz frequency range LCR meter.
The E4980AL is the model number of the 20 Hz to 300 kHz, 500 kHz or 1 MHz frequency
range LCR meter. See the E4980A/E4980AL Configuration Guide (5989-8321EN) for
more details.
E4980A/E4980AL
Frequency range
20 Hz to 2 MHz
20 Hz to 1 MHz
20 Hz to 500 kHz
20 Hz to 300 kHz
Model number and option
E4980A
E4980AL-102
E4980AL-052
E4980AL-032
03 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Measurement functions
Basic Specifications
Measurement parameters
– Cp-D, Cp-Q, Cp-G, Cp-Rp
– Cs-D, Cs-Q, Cs-Rs
– Lp-D, Lp-Q, Lp-G, Lp-Rp, Lp-Rdc
– Ls-D, Ls-Q, Ls-Rs, Ls-Rdc
– R-X
– Z-θd, Z-θr
– G-B
– Y-θd, Y-θr
– Vdc-Idc1
Definitions
Cp
Cs
Lp
Ls
D
Capacitance value measured with parallel-equivalent circuit model
Capacitance value measured with series-equivalent circuit model
Inductance value measured with parallel-equivalent circuit model
Inductance value measured with series-equivalent circuit model
Dissipation factor
Q
Quality factor (inverse of D)
G
Rp
Rs
Equivalent parallel conductance measured with parallel-equivalent circuit model
Equivalent parallel resistance measured with parallel-equivalent circuit model
Equivalent series resistance measured with series-equivalent circuit model
Rdc Direct-current resistance
R
Resistance
X
Reactance
Z
Impedance
Y
Admittance
qd
qr
B
Phase angle of impedance/admittance (degree)
Phase angle of impedance/admittance (radian)
Susceptance
Vdc Direct-current voltage
Idc Direct-current electricity
Deviation measurement function: Deviation from reference value and percentage of
deviation from reference value can be output as the result.
Equivalent circuits for measurement: Parallel, Series
Impedance range selection: Auto (auto range mode), manual (hold range mode)
Trigger mode: Internal trigger (INT), manual trigger (MAN), external trigger (EXT),
GPIB trigger (BUS)
1. E4980A-001 is required.
04 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Table 1. Trigger delay time
Range
0 s - 999 s
Resolution
100 µs (0 s - 100 s)
1 ms (100 s - 999 s)
Table 2. Step delay time
Range
0 s - 999 s
Resolution
100 µs (0 s - 100 s)
1 ms (100 s - 999 s)
Measurement terminal: Four-terminal pair
Test cable length: 0 m, 1 m, 2 m, 4 m
Measurement time modes: Short mode, medium mode, long mode.
Table 3. Averaging
Range
1 - 256 measurements
1
Resolution
Test signal
Table 4. Test frequencies
Test frequencies
20 Hz - 2 MHz (E4980A)
20 Hz - 1 MHz (E4980AL-102)
20 Hz - 500 kHz (E4980AL-052)
20 Hz - 300 kHz (E4980AL-032)
Resolution
0.01 Hz (20 Hz - 99.99 Hz)
0.1 Hz (100 Hz - 999.9 Hz)
1 Hz (1 kHz - 9.999 kHz)
10 Hz (10 kHz - 99.99 kHz)
100 Hz (100 kHz - 999.9 kHz)
1 kHz (1 MHz - 2 MHz)
Measurement accuracy ± 0.01%
Table 5. Test signal modes
Normal
Program selected voltage or current at the measurement terminals when
they are opened or short-circuited, respectively.
Constant
Maintains selected voltage or current at the device under test (DUT)
independently of changes in impedance of DUT.
05 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Signal level
Table 6. Test signal voltage
Range
0 Vrms - 2.0 Vrms
Resolution
100 µVrms (0 Vrms - 0.2 Vrms)
200 µVrms (0.2 Vrms - 0.5 Vrms)
500 µVrms (0.5 Vrms - 1 Vrms)
1 mVrms (1 Vrms - 2 Vrms)
Accuracy
Normal
±(10% + 1 mVrms)
Test frequency ≤ 1 MHz: spec.
Test frequency > 1 MHz: typ.
Constant1
±(6% + 1 mVrms)
Test frequency ≤ 1 MHz: spec.
Test frequency > 1 MHz: typ.
Table 7. Test signal current
Range
0 Arms - 20 mArms
Resolution
1 µArms (0 Arms - 2 mArms)
2 µArms (2 mArms - 5 mArms)
5 µArms (5 mArms - 10 mArms)
10 µArms (10 mArms - 20 mArms)
Accuracy
Normal
±(10% + 10 µArms)
Test frequency ≤ 1 MHz: spec.
Test frequency > 1 MHz: typ.
Constant1
±(6% + 10 µArms)
Test frequency < = 1 MHz: spec.
Test frequency > 1 MHz: typ.
Output impedance: 100 Ω (nominal)
Test signal level monitor function
– Test signal voltage and test signal current can be monitored.
– Level monitor accuracy:
Table 8. Test signal voltage monitor accuracy (Vac)
Test signal voltage2
Test frequency
≤ 1 MHz
Specification
5 mVrms - 2 Vrms
± (3% of reading value + 0.5 mVrms)
± (6% of reading value + 1 mVrms)
> 1 MHz
Table 9. Test signal current monitor accuracy (lac)
Test signal current2
Test frequency
Specification
50 µArms - 20 mArms
≤ 1 MHz
> 1 MHz
± (3% of reading value + 5 µArms)
± (6% of reading value + 10 µArms)
1. When auto level control function is on.
2. This is not an output value but rather a
displayed test signal level.
06 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Measurement display ranges
Table 10 shows the range of measured value that can be displayed on the screen.
For the effective measurement ranges, refer to Figure 1 impedance measurement
accuracy example.
Table 10. Allowable display ranges for measured values
Parameter
Measurement display range
± 1.000000 aF to 999.9999 EF
± 1.000000 aH to 999.9999 EH
± 0.000001 to 9.999999
Cs, Cp
Ls, Lp
D
Q
± 0.01 to 99999.99
R, Rs, Rp, X, Z, Rdc
± 1.000000 aΩ to 999.9999 EΩ
± 1.000000 aS to 999.9999 ES
± 1.000000 aV to 999.9999 EV
± 1.000000 aA to 999.9999 EA
± 1.000000 arad to 3.141593 rad
± 0.0001 deg to 180.0000 deg
± 0.0001 % to 999.9999 %
G, B, Y
Vdc
Idc
θr
θd
Δ%
a: 1 x 10-18, E: 1 x 1018
07 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Absolute measurement accuracy
The following equations are used to calculate absolute accuracy.
Absolute accuracy Aa of |Z|, |Y|, L, C, R, X, G, B (L, C, X, and B accuracies apply when
Dx ≤ 0.1, R and G accuracies apply when Qx ≤ 0.1 )
Equation 1.
Aa = Ae + Acal
Aa
Ae
Acal
Absolute accuracy (% of reading value)
Relative accuracy (% of reading value)
Calibration accuracy (%)
where G accuracy is applied only to G-B measurements.
D accuracy (when Dx ≤ 0.1)
Equation 2.
De + θcal
Dx
Measured D value
De
θcal
Relative accuracy of D
Calibration accuracy of θ (radian)
Q accuracy (When Qx × Da < 1)
Equation 3.
(Qx2 × Da)
± ————————————
(1 Qx × Da)
Qx
Da
Measured Q value
Absolute accuracy of D
θ accuracy
Equation 4.
θe + θcal
θe
θcal
Relative accuracy of θ (degree)
Calibration accuracy of θ (degree)
08 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
G accuracy (when Dx ≤ 0.1)
Equation 5.
Bx + Da (S)
Bxꢀ=ꢀ2πfCxꢀ=ꢀꢀ——————
ꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀ2πfLxꢀ
1
ꢀ
ꢀ
ꢀ
ꢀ
Dx
Bx
Da
f
Cx
Lx
Measured D value
Measured B value (S)
Absolute accuracy of D
Test frequency (Hz)
Measured C value (F)
Measured L value (H)
where the accuracy of G is applied to Cp-G measurements.
Absolute accuracy of Rp (when Dx ≤ 0.1)
Equation 6.
Rpx × Da
ꢀ
ꢀ
± ꢀ ———————— ꢀ ꢀ ꢀ ꢀ ꢀ ꢀ ( Ω )
Dx
Da
Rpx
Dx
Measured Rp value (Ω)
Measured D value
Da
Absolute accuracy of D
Absolute accuracy of Rs (when Dx ≤ 0.1)
Equationꢀ7.ꢀꢀꢀ
Xxꢀ×ꢀDaꢀ ꢀꢀꢀꢀꢀꢀꢀ(Ω)
1
ꢀ
ꢀ
ꢀ
ꢀ
Xxꢀ=ꢀꢀ————— ꢀꢀ=ꢀ2πfLx
ꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀ2πfCx
Dx
Xx
Da
f
Cx
Lx
Measured D value
Measured X value (Ω)
Absolute accuracy of D
Test frequency (Hz)
Measured C value (F)
Measured L value (H)
09 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Relative accuracy
Relative accuracy includes stability, temperature coefficient, linearity, repeatability, and
calibration interpolation error. Relative accuracy is specified when all of the following
conditions are satisfied:
– Warm-up time: 30 minutes
– Test cable length: 0 m, 1 m, 2 m, or 4 m (Keysight Technologies, Inc. 16048A/D/E)
– A “Signal Source Overload” warning does not appear.
When the test signal current exceeds a value in table 11 below, a “Signal Source
Overload” warning appears.
Table 11.
Test signal voltage Test frequency
Condition1
≤ 2 Vrms
–
–
> 2 Vrms
≤ 1 MHz
The smaller value of either 110 mA or
130 mA - 0.0015 × Vac × (Fm / 1 MHz) × (L_cable + 0.5)
70 mA - 0.0015 × Vac × (Fm / 1 MHz) × (L_cable + 0.5)
> 1 MHz
Vac [V]
Fm [Hz]
L_cable [m]
Test signal voltage
Test frequency
Cable length
– OPEN and SHORT corrections have been performed.
– Bias current isolation: Off
– The DC bias current does not exceed a set value within each range of the DC bias
current
– The optimum impedance range is selected by matching the impedance of DUT to the
effective measuring range.
– Under an AC magnetic field, the following equation is applied to the measurement
accuracy.
A x (1 + B x ( 2 + 0.5 / Vs))
Where
A:
Absolute accuracy
B:
Vs:
Magnetic flux density [Gauss]
Test signal voltage level [Volts]
|Z|, |Y|, L, C, R, X, G, and B accuracy (L, C, X, and B accuracies apply when Dx ≤ 0.1,
R and G accuracies apply Qx ≤ 0.1)
Relative accuracy Ae is given as:
Equation 8.
Ae = [Ab + Zs /|Zm| × 100 + Yo × |Zm| × 100 ] × Kt
Impedance of DUT
Basic accuracy
Zm
Ab
Zs
Yo
Kt
Short offset
Open offset
Temperature coefficient
D accuracy
D accuracy De is given as
– when Dx ≤ 0.1
Equation 9.
De = ±Ae/100
Measured D value
Relative accuracies of |Z|, |Y|, L, C, R, X, G, and B
Dx
Ae
1. When the calculation result is a negative
value, 0 A is applied.
– when Dx > 0.1, multiply De by (1 + Dx)
10 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Q accuracy (when Q x De < 1)
Q accuracy Qe is given as:
Equation 10.
(Qx2 × De)
Q e = ± —————————————
(1 Qx × De)
Qx
De
Measured Q value
Relative D accuracy
θ accuracy
θ accuracy θe is given as:
Equation 11.
180 × Ae
θe = —————————— ( d e g )
ꢀ
ꢀ
ꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀπꢀ×ꢀ100
Ae
Relative accuracies of |Z|, |Y|, L, C, R, X, G, and B
G accuracy (when Dx ≤ 0.1)
G accuracy Ge is given as:
Equation 12.
Ge = Bx × De
(S)
1
ꢀ
ꢀ
ꢀ
ꢀ
Bxꢀ=ꢀ2πfCxꢀ=ꢀꢀ——————ꢀꢀꢀꢀ
ꢀ
ꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀ2πfLxꢀ
Ge
Dx
Bx
De
f
Relative G accuracy
Measured D value
Measured B value
Relative D accuracy
Test frequency (Hz)
Measured C value (F)
Measured L value (H)
Cx
Lx
Rp accuracy (when Dx ≤ 0.1)
Rp accuracy Rpe is given as:
Equationꢀ13.ꢀꢀ
ꢀ
ꢀꢀRpxꢀ×ꢀDeꢀꢀꢀꢀꢀꢀꢀꢀ(Ω)
R p e = ± —————————
Dx
De
Rpe
Rpx
Dx
Relative Rp accuracy
Measured Rp value (Ω)
Measured D value
De
Relative D accuracy
Rs accuracy (when Dx ≤ 0.1)
Rs accuracy Rse is given as:
Equationꢀ14.ꢀꢀ
Rseꢀ=ꢀXxꢀ×ꢀDeꢀ
ꢀꢀꢀꢀꢀꢀꢀꢀꢀ(Ω)
1
ꢀ
ꢀ
ꢀ
ꢀ
Xxꢀ=ꢀꢀ—————– ꢀꢀ=ꢀ2πfLx
ꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀꢀ2πfCx
Rse
Dx
Xx
De
f
Relative Rs accuracy
Measured D value
Measured X value (Ω)
Relative D accuracy
Test frequency (Hz)
Measured C value (F)
Measured L value (H)
Cx
Lx
11 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Example of C-D accuracy calculation
Measurement conditions
Test Frequency:
1 kHz
Measured C value:
Test signal voltage:
Measurement time mode:
100 nF
1 Vrms
Medium
Measurement temperature: 23 °C
Ab = 0.05%
|Zm| = 1 / (2π × 1 × 103 × 100 × 10-9) = 1590 Ω
√
Zs = 0.6 mΩ × (1 + 0.400/1) × (1 + (1000/1000) = 1.68 mΩ
√
Yo = 0.5 nS × (1 + 0.100/1) × (1 + (100/1000) = 0.72 nS
C accuracy: Ae = [0.05 + 1.68 m/1590 × 100 + 0.72 n × 1590 × 100] × 1 = 0.05%
D accuracy: De = 0.05/100 = 0.0005
Basic accuracy
Basic accuracy Ab is given below.
Table 12. Measurement time mode = SHORT
Test
Test signal voltage
frequency [Hz]
5 mVrms -
50 mVrms
50 mVrms - 0.3 Vrms -
1 Vrms -
10 Vrms
10 Vrms -
20 Vrms
0.3 Vrms
1 Vrms
20 - 125
125 - 1 M
1 M - 2 M
(0.6%) ×
(50 mVrms/Vs)
0.60%
0.30%
0.30%
0.15%
0.30%
0.30%
0.15%
0.30%
(0.2%) ×
(50 mVrms/Vs)
0.20%
0.40%
0.10%
0.20%
(0.4%) ×
(50 mVrms/Vs)
Table 13. Measurement time mode = MED, LONG
Test
Test signal voltage
frequency [Hz]
5 mVrms - 50
mVrms
50 mVrms - 0.3 Vrms -
1 Vrms -
10 Vrms
10 Vrms -
20 Vrms
0.3 Vrms
1 Vrms
20 - 100
100 - 1 M
1 M - 2 M
(0.25%) ×
(30 mVrms/Vs)
0.25%
0.10%
0.15%
0.10%
0.20%
0.15%
0.15%
0.30%
(0.1%) ×
(30 mVrms/Vs)
0.10%
0.20%
0.05%
0.10%
(0.2%) ×
(30 mVrms/Vs)
Vs [Vrms]
Test signal voltage
12 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Effect by impedance of DUT
Table 14. For impedance of DUT below 30 Ω, the following value is added.
Test frequency [Hz]
Impedance of DUT
1.08 Ω ≤ |Zx| < 30 Ω
0.05%
|Zx| < 1.08 Ω
0.10%
20 - 1 M
1 M - 2 M
0.10%
0.20%
Table 15. For impedance of DUT over 9.2 k Ω, the following value is added.
Test frequency [Hz]
Impedance of DUT
9.2 kΩ < |Zx| ≤ 92 kΩ
92 kΩ < |Zx|
0.05%
10 k - 100 k
100 k - 1 M
1 M - 2 M
0%
0.05%
0.10%
0.05%
0.10%
Effect of cable extension
When the cable is extended, the following element is added per one meter.
0.015 % × (Fm/1 MHz)2 × (L_cable)2
Fm [Hz]
L_cable [m]
Test frequency
Cable length
13 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Short offset Zs
Table 16. Impedance of DUT > 1.08 Ω
Test
frequency [Hz]
Measurement time mode
SHORT
MED, LONG
20 - 2 M
2.5 mΩ × (1 + 0.400/Vs) ×
0.6 mΩ × (1 + 0.400/Vs) ×
√
√
(1 + (1000/Fm))
(1 + (1000/Fm))
Table 17. Impedance of DUT ≤ 1.08 Ω
Test
frequency [Hz]
Measurement time mode
SHORT
MED, LONG
√
√
0.2 mΩ × (1 + 1/Vs) × (1 + (1000/Fm))
20 - 2 M
1 mΩ × (1 + 1/Vs) × (1 + (1000/Fm))
Vs [Vrms]
Fm [Hz]
Test signal voltage
Test frequency
Effect of cable extension (Short offset)
Table 18. When the cable is extended, the following value is added to Zs
(independent of the measurement time mode).
Test
Cable length
frequency [Hz]
0 m
0
1 m
2 m
4 m
20 - 1 M
0.25 mΩ
1 mΩ
0.5 mΩ
2 mΩ
1 mΩ
4 mΩ
1 M - 2 M
0
Open offset Yo
Table 19. Test signal voltage ≤ 2.0 Vrms
Test
frequency [Hz]
Measurement time mode
SHORT
MED, LONG
√ √
2 nS × (1 + 0.100/Vs) × (1 + (100/Fm)) 0.5 nS × (1 + 0.100/Vs) × (1 + (100/Fm))
20 - 100 k
100 k - 1 M
1 M - 2 M
20 nS × (1 + 0.100/Vs)
40 nS × (1 + 0.100/Vs)
5 nS × (1 + 0.100/Vs)
10 nS × (1 + 0.100/Vs)
Table 20. Test signal voltage > 2.0 Vrms
Test
frequency [Hz]
Measurement time mode
SHORT
MED, LONG
√
√
20 - 100 k
100 k - 1 M
1 M - 2 M
2 nS × (1 + 2/Vs) × (1 + (100/Fm))
0.5 nS × (1 + 2/Vs) × (1 + (100/Fm))
5 nS × (1 + 2/Vs)
20 nS × (1 + 2/Vs)
40 nS × (1 + 2/Vs)
10 nS × (1 + 2/Vs)
Vs [Vrms]
Fm [Hz]
Test signal voltage
Test frequency
Note
The Open Offset may become three times greater
in the ranges of 40 to 70 kHz and 80 to 100 kHz
due to residual response.
14 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Effect of cable length
Table 21. When the cable is extended, multiply Yo by the following factor.
Test
Cable length
frequency [Hz]
0 m
1
1 m
2 m
4 m
100 - 100 k
100 k - 1 M
1 M - 2 M
1 + 5 × Fm/1 MHz
1 + 0.5 × Fm/1 MHz
1 + 1 × Fm/1 MHz
1 + 10 × Fm/1 MHz
1 + 1 × Fm/1 MHz
1 + 2 × Fm/1 MHz
1 + 20 × Fm/1 MHz
1 + 2 × Fm/1 MHz
1 + 4 × Fm/1 MHz
1
1
Fm [Hz] Test frequency
Temperature factor Kt
Table 22. The temperature factor Kt is given below.
Temperature [°C]
0 - 18
Kt
4
18 - 28
1
28 - 55
4
15 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Calibration accuracy Acal
Calibration accuracy Acal is given below.
For impedance of DUT on the boundary line, apply the smaller value.
Table 23. Impedance range = 0.1, 1, 10 Ω
Test frequency [Hz]
20 - 1 k
1 k - 10 k
10 k -100 k
100 k - 300 k 300 k - 1 M 1 M - 2 M
0.05 + 0.05 + 0.1 +
5 × 10-5 Fm 5 × 10-5 Fm 1 × 10-4 Fm
3 × 10-4 3 × 10-4 6 × 10-4+
|Z| [%]
0.03
0.05
0.05
θ [radian] 1 × 10-4
2 × 10-4
3 × 10-4
+
+
2 × 10-7 Fm 2 × 10-7 Fm 4 × 10-7 Fm
Table 24. Impedance range = 100 Ω
Test frequency [Hz]
20 - 1 k
1 k - 10 k
10 k -100 k
100 k - 300 k 300 k - 1 M 1 M - 2 M
|Z| [%]
0.03
0.05
0.05
0.05 +
5 × 10-5 Fm 5 × 10-5 Fm 1 × 10-4 Fm
3 × 10-4 3 × 10-4 6 × 10-4
0.05 +
0.1 +
θ [radian] 1 × 10-4
2 × 10-4
3 × 10-4
Table 25. Impedance range = 300, 1 kΩ
Test frequency [Hz]
20 - 1 k
1 k - 10 k
0.03
10 k -100 k
0.05
100 k - 300 k 300 k - 1 M 1 M - 2 M
|Z| [%]
0.03
0.05
0.05
0.1
θ [radian] 1 × 10-4
1 × 10-4
3 × 10-4
3 × 10-4
3 × 10-4
6 × 10-4
Table 26. Impedance range = 3 k, 10 kΩ
Test frequency [Hz]
20 - 1 k
1 k - 10 k
10 k -100 k
100 k - 300 k 300 k - 1 M 1 M - 2 M
0.03 + 0.03 + 0.06 +
|Z| [%]
0.03 +
0.03 +
0.03 +
1 × 10-4 Fm 1 × 10-4 Fm 1 × 10-4 Fm 1 × 10-4 Fm 1 × 10-4 Fm 2 × 10-4 Fm
θ [radian] (100 + 2.5 Fm) (100 + 2.5 Fm) (100 + 2.5 Fm) (100 + 2.5 Fm) (100 + 2.5 Fm) (200 + 5 Fm)
× 10-6 × 10-6 × 10-6 × 10-6 × 10-6 × 10-6
Table 27. Impedance range = 30 k, 100 kΩ
Test frequency [Hz]
20 - 1 k
1 k - 10 k
10 k -100 k
100 k - 300 k 300 k - 1 M 1 M - 2 M
0.03 + 0.03 + 0.06 +
|Z| [%]
0.03 +
0.03 +
0.03 +
1 × 10-3 Fm 1 × 10-3 Fm 1 × 10-3 Fm 1 × 10-3 Fm 1 × 10-4 Fm 2 × 10-4 Fm
θ [radian] (100 + 20 Fm) (100 + 20 Fm) (100 + 20 Fm) (100 + 20 Fm) (100 + 2.5 Fm) (200 + 5 Fm)
× 10-6 × 10-6 × 10-6 × 10-6 × 10-6 × 10-6
Fm[kHz] Test frequency
16 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Measurement accuracy
The impedance measurement calculation example below is the result of absolute
measurement accuracy.
100aF
100fF
10fF
1pF
10pF
1fF
1MH
100kH
10kH
1kH
100H
1n
10n
100n
1µ
1G
100M
10M
1M
100pF
10.0%
10H
1H
1nF
10nF
1.0%
0.3%
100mH
10mH
1mH
0.1%
100nF
10µ
100µ
1m
100k
10k
1k
1
µ
F
H
µ
10
100
µ
F
H
µ
100
10
µ
F
10m
100m
1
100
10
0.1%
H
µ
1mF
10mF
1
100nH
10nH
1nH
1
0.3%
1.0%
100mF
10
100m
10m
1m
1F
100
10
10.0%
100pH
20
100
1k
10k
100k
1M 2M
Frequency [ Hz ]
Figure 1. Impedance measurement accuracy (Test signal voltage = 1 Vrms, cable length=0 m, measurement time
mode = MED)
17 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Compensation function
Table 28. The E4980A provides three types of compensation functions:
OPEN compensation, SHORT compensation, and LOAD compensation.
Type of compensation
Description
OPEN compensation
Compensates errors caused by the stray admittance (C, G) of the test
fixture.
SHORT compensation
LOAD compensation
Compensates errors caused by the residual impedance (L, R) of the test
fixture.
Compensates errors between the actual measured value and a known
standard value under the measurement conditions desired by the user.
List sweep
Points: There is a maximum of 201 points.
First sweep parameter (primary parameter): Test frequency, test signal voltage, test
signal current, test signal voltage of DC bias signal, test signal current of DC bias
signal, DC source voltage.
Note
A parameter selected for one of the two
parameters cannot be selected for the other
parameter. It is not possible to set up a
combination of test signal voltage and test
signal current or one of test signal voltage of DC
bias signal and test signal current of DC bias.
Second sweep parameter (secondary parameter): None, impedance range, test
frequency, test signal voltage, test signal current, test signal voltage of DC bias signal,
test signal current of DC bias signal, DC source voltage
The secondary parameter can be set only with
SCPI commands.
Trigger mode
Sequential mode: When the E4980A is triggered once, the device is measured at all
sweep points. /EOM/INDEX is output only once.
Step mode: The sweep point is incremented each time the E4980A is triggered.
/EOM/INDEX is output at each point, but the result of the comparator function of the
list sweep is available only after the last /EOM is output.
18 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Comparator function of list sweep: The comparator function enables setting one pair of
lower and upper limits for each measurement point.
You can select from: Judge with the first sweep parameter/Judge with the second
parameter/Not used for each pair of limits.
Time stamp function: In the sequential mode, it is possible to record the measurement
starting time at each measurement point by defining the time when FW detects a trigger
as 0 and obtain it later with the SCPI command.
Comparator function
Bin sort: The primary parameter can be sorted into 9 BINs, OUT_OF_BINS, AUX_BIN,
and LOW_C_REJECT. The secondary parameter can be sorted into HIGH, IN, and LOW.
The sequential mode and tolerance mode can be selected as the sorting mode.
Limit setup: Absolute value, deviation value, and % deviation value can be used for setup.
BIN count: Countable from 0 to 999999.
DC bias signal
Table 29. Test signal voltage
Range
0 V to +2 V
Resolution
Accuracy
0 V / 1.5 V / 2 V only
0.1% + 2 mV (23 °C ± 5 °C)
(0.1% + 2 mV) × 4
(0 to 18 °C or 28 to 55 °C)
Output impedance:
100 Ω (nominal)
Measurement assistance functions
Note
Data buffer function: Up to 201 measurement results can be read out in a batch.
The following USB memory can be used.
Complies with USB 1.1; mass storage class,
FAT16/FAT32 format; maximum consumption
current is below 500 mA.
Save/Recall function:
– Up to 10 setup conditions can be written to/read from the built-in non-volatile
memory.
– Up to 10 setup conditions can be written to/read from the USB memory.
– Auto recall function can be performed when the setting conditions are written to
Register 10 of the USB memory.
Recommended USB memory: 4 GB USB Flash
memory (Keysight PN 1819-0637).
Use the recommended USB memory device
exclusively for the E4980A, otherwise,
previously saved data may be cleared.
If you use a USB memory other than the
recommended device, data may not be
saved or recalled normally.
Key lock function: The front panel keys can be locked.
GPIB: 24-pin D-Sub (Type D-24), female; complies with IEEE488.1, 2 and SCPI
Keysight will NOT be responsible for data loss in
the USB memory caused by using the E4980A.
USB host port: Universal serial bus jack, type-A (4 contact positions, contact 1 is on
your left), female (for connection to USB memory only).
USB interface port: Universal serial bus jack, type mini-B (4 contact positions); complies
with USBTMC-USB488 and USB 2.0; female; for connection to the external controller.
USBTMC: Abbreviation for USB Test & Measurement Class
LAN: 10/100 BaseT Ethernet, 8 pins (two speed options)
LXI Compliance: Class C (only applies to units with firmware revision A.02.00 or later)
19 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Frequency options
Options
E4980A
20 Hz to 2 MHz
20 Hz to 300 kHz
20 Hz to 500 kHz
20 Hz to 1 MHz
Note
E4980AL-032
E4980AL-052
E4980AL-102
Option xxx is described as E4980A-xxx in the
order information
Table 30. Installable options
Options
E4980A
E4980AL
Power and DC bias enhancement (001)
Bias Current Interface (002)
Entry model (005)
Installable
Installable
Installable
Installable
Installable1
Installable
Installable
Not installable
Not installable
Not installable
Not installable
Not installable2
Not installable
Not installable
Standard model (007)
DCR measurement (200)
Handler interface (201)
Scanner interface (301)
Interface options
Option 002 (Bias current interface)
Adds a digital interface to allow the E4980A to control the 42841A’s bias current source.
Option 201 (Handler interface)
Adds handler interface.
Option 301 (Scanner interface)
Adds scanner interface.
Option 710 (No interface)
An option with no interface.
Up to 2 interface options can be installed in the interface connector on the rear panel.
When no interface is installed, two of the option 710 are installed. When one interface is
installed, the option number of its interface and one option 710 are installed.
Other options
Option 001 (Power and DC Bias enhancement)
Increases test signal voltage and adds the variable DC bias voltage.
Option 005 (Entry model)
Low-priced option that requires a longer measurement time. The level of measurement
accuracy is the same as the standard.
Option 007 (Standard model)
Note
Upgrades the entry model to the standard.
Option 007 can be installed only in the E4980A
with option 005.
Option 200 (DCR measurement)
Adds DCR measurement
Note
E4980A-200/001 and E4980AL-032/052/102
supports DCR measurement function.
1. Mandatory option
2. DCR measurement function is equipped
by default.
20 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Power and DC bias enhancement specification
Increases test signal voltage and adds the variable DC bias voltage function.
The Vdc-Idc measurement function is available when the option 001 is installed.
Measurement parameters
The following parameters can be used.
– Lp-Rdc
– Ls-Rdc
– Vdc-Idc
where
Rdc
Vdc
Idc
Direct-current resistance (DCR)
Direct-current voltage
Direct-current electricity
Test signal
Signal level
Table 31. Test signal voltage
Range
0 Vrms to 20 Vrms (test frequency ≤ 1 MHz)
0 Vrms to 15 Vrms (test frequency > 1 MHz)
Resolution
100 µVrms (0 Vrms - 0.2 Vrms)
200 µVrms (0.2 Vrms - 0.5 Vrms)
500 µVrms (0.5 Vrms - 1 Vrms)
1 mVrms (1 Vrms - 2 Vrms)
2 mVrms (2 Vrms - 5 Vrms)
5 mVrms (5 Vrms - 10 Vrms)
10 mVrms (10 Vrms - 20 Vrms)
Setup accuracy
normal ± (10% + 1 mVrms) (test signal voltage ≤ 2 Vrms)
(test frequency ≤ 1 MHz : spec., test frequency > 1 MHz : typ.)
± (10% + 10 mVrms) (Test frequency ≤ 300 kHz,
test signal voltage > 2 Vrms) (spec.)
± (15% + 20 mVrms) (test frequency > 300 kHz,
test signal voltage > 2 Vrms) (test frequency ≤ 1 MHz : spec., test
frequency > 1 MHz : typ.)
Constant1 ± (6% + 1 mVrms) (test signal voltage ≤ 2 Vrms)
(test frequency ≤ 1 MHz : spec., test frequency > 1 MHz : typ.)
± (6% + 10 mVrms) (test frequency ≤ 300 kHz,
test signal voltage > 2 Vrms) (spec.)
± (12% + 20 mVrms) (test frequency > 300 kHz,
test signal voltage > 2 Vrms) (test frequency ≤ 1 MHz : spec.,
test frequency > 1 MHz : typ.)
1. When auto level control function is on.
21 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Table 32. Test signal current
Range
0 Arms - 100 mArms
Resolution
1 µArms (0 Arms - 2 mArms)
2 µArms (2 mArms - 5 mArms)
5 µArms (5 mArms - 10 mArms)
10 µArms (10 mArms - 20 mArms)
20 µArms (20 mArms - 50 mArms)
50 µArms (50 mArms - 100 mArms)
Setup accuracy
normal
±(10% + 10 µArms) (test signal voltage ≤ 20 mArms)
(test frequency ≤ 1 MHz : spec., test frequency > 1 MHz : typ.)
±(10% + 100 µArms) (test frequency ≤ 300 kHz,
test signal current > 20 mArms) (spec.)
±(15% + 200 µArms) (test frequency > 300 kHz,
test signal voltage > 20 mArms) (test frequency ≤ 1 MHz : spec.,
test frequency > 1 MHz : typ.)
Constant1
±(6% + 10 µArms) (test signal voltage ≤ 20 mArms)
(test frequency ≤ 1 MHz : spec., test frequency > 1 MHz : typ.)
±(6% + 100 µArms) (test frequency ≤ 300 kHz,
test signal voltage > 20 mArms) (spec.)
±(12% + 200 µArms) (test frequency > 300 kHz,
test signal voltage > 20 mArms) (test frequency ≤ 1 MHz : spec.,
test frequency > 1 MHz : typ.)
Test signal level monitor function
– Test signal voltage and test signal current can be monitored.
– Level monitor accuracy:
Table 33. Test signal voltage monitor accuracy (Vac)
Test signal voltage2
Test frequency
≤ 1 MHz
Specification
5 mVrms to 2 Vrms
±(3% of reading value + 0.5 mVrms)
±(6% of reading value + 1 mVrms)
±(3% of reading value + 5 mVrms)
±(6% of reading value + 10 mVrms)3
> 1MHz
> 2 Vrms
≤ 300 kHz
> 300 kHz
Table 34. Test signal current monitor accuracy (Iac)
Test signal current2
Test frequency
≤ 1 MHz
Specification
50 µArms to 20 mArms
±(3% of reading value + 5 µArms)
±(6% of reading value + 10 µArms)
±(3% of reading value + 50 µArms)
±(6% of reading value + 100 µArms)
> 1MHz
> 20 mArms
≤ 300 kHz
> 300 kHz
1. When auto level control function is on.
2. This is not an output value but a displayed test
signal level
3. Typ. when test frequency is > 1 MHz with test
signal voltage > 10 Vrms.
22 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
DC bias signal
Table 35. Test signal voltage
Range
–40 V to +40 V
Resolution
Setup resolution: 100 µV, effective resolution:
330 µV ±(0 V - 5 V)
1 mV ±(5 V - 10 V)
2 mV ±(10 V - 20 V)
5 mV ±(20 V - 40 V)
Accuracy
test signal voltage ≤ 2 Vrms
0.1% + 2 mV (23 °C ± 5 °C)
(0.1% + 2 mV) x 4
(0 to 18 °C or 28 to 55 °C)
0.1 % + 4 mV (23 °C ± 5 °C)
(0.1% + 4 mV) x 4
test signal voltage > 2 Vrms
(0 to 18 °C or 28 to 55 °C)
Table 36. Test signal current
Range
–100 mA - 100 mA
Resolution
Setup resolution: 1 µA, effective resolution:
3.3 µA ±(0 A - 50 mA)
10 µA ±(50 mA - 100 mA)
DC bias voltage level monitor Vdc
(0.5% of reading value + 60 mV) × Kt
When using Vdc-Idc measurement: (spec.)
When using level monitor: (typ.)
Kt
Temperature coefficient
DC bias current level monitor Idc
(A [%] of the measurement value + B [A]) × Kt
When using Vdc-Idc measurement: (spec.)
When using level monitor: (typ.)
A [%]
When the measurement time mode is SHORT: 2%
When the measurement time mode is MED or LONG: 1%
B [A]
Kt
given below
Temperature coefficient
When the measurement mode is SHORT, double the following value.
23 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Table 37. Test signal voltage ≤ 0.2 Vrms (measurement time mode = MED, LONG)
DC bias Impedance range [Ω]
current range
< 100
100
300, 1 k
3 µA
3 k, 10 k
300 nA
300 nA
3 µA
30k, 100 k
45 nA
20 µA
200 µA
2 mA
150 µA
150 µA
150 µA
150 µA
150 µA
30 µA
30 µA
30 µA
30 µA
150 µA
3 µA
300 nA
3 µA
3 µA
20 mA
100 mA
30 µA
150 µA
30 µA
30 µA
150 µA
150 µA
Table 38. 0.2 Vrms < test signal voltage ≤ 2 Vrms (measurement time mode = MED, LONG)
DC bias
Impedance range [Ω]
current range
< 100
100, 300
1k, 3 k
3 µA
10k, 30 k
300 nA
300 nA
3 µA
100 k
45 nA
300 nA
3 µA
20 µA
200 µA
2 mA
150 µA
150 µA
150 µA
150 µA
150 µA
30 µA
30 µA
30 µA
30 µA
150 µA
3 µA
3 µA
20 mA
100 mA
30 µA
150 µA
30 µA
30 µA
150 µA
150 µA
Table 39. Test signal voltage > 2 Vrms (measurement time mode = MED, LONG)
DC bias
Impedance range [Ω]
current range
≤ 300
150 µA
150 µA
150 µA
150 µA
150 µA
1 k, 3 k
10k, 30 k
3 µA
100 k
20 µA
30 µA
30 µA
30 µA
30 µA
150 µA
300 nA
300 nA
3 µA
200 µA
2 mA
3 µA
3 µA
20 mA
100 mA
30 µA
150 µA
30 µA
150 µA
Table 40. Input impedance (nominal)
Input impedance
Conditions
Other than conditions below.
0 Ω
20 Ω
Test signal voltage ≤ 0.2 Vrms, Impedance range ≥ 3 k Ω,
DC bias current range ≤ 200 µA
Test signal voltage ≤ 2 Vrms, Impedance range ≥ 10 kΩ,
DC bias current range ≤ 200 µA
Test signal voltage > 2 Vrms, Impedance range = 100 kΩ,
DC bias current range ≤ 200 µA
DC source signal
Table 41. Test signal voltage
Range
–10 V to 10 V
Resolution
Accuracy
1 mV
0.1% + 3 mV (23 °C ± 5 °C)
(0.1% + 3 mV) x 4
(0 to 18 °C or 28 to 55 °C)
Table 42. Test signal current
Range
–45 mA to 45 mA (nominal)
Output impedance
100 Ω (nominal)
24 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
DCR measurement specification
DC resistance (Rdc) measurement function is available when either E4980A-001/200 or
E4980AL-032/052/102 is installed.
DC resistance (Rdc) accuracy
Absolute measurement accuracy Aa
Absolute measurement accuracy Aa is given as
Equation 15.
Aa = Ae + Acal
Aa
Ae
Acal
Absolute accuracy (% of reading value)
Relative accuracy (% of reading value)
Calibration accuracy
Relative measurement accuracy Ae
Relative measurement accuracy Ae is given as
Equation 16.
Ae = [Ab + (Rs /|Rm|+ Go × |Rm|) × 100 ] × Kt
Rm
Ab
Rs
Go
Kt
Measurement value
Basic accuracy
Short offset [Ω]
Open offset [S]
Temperature coefficient
Calibration accuracy Acal
Calibration accuracy Acal is 0.03%.
Basic accuracy Ab
Table 43. Basic accuracy Ab is given below.
Measurement time mode
Test signal voltage
≤ 2 Vrms
1.00%
> 2 Vrms
2.00%
SHORT
MED
0.30%
0.60%
Open offset Go
Table 44. Open offset Go is given below.
Measurement time mode
Test signal voltage
≤ 2 Vrms
50 nS
> 2 Vrms
500 nS
100 nS
SHORT
MED
10 nS
Short offset Rs
Table 45. Short offset Rs is given below.
Measurement time mode
Test signal voltage
≤ 2 Vrms
25 mΩ
5 mΩ
> 2 Vrms
250 mΩ
50 mΩ
SHORT
MED
25 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Effect of cable length (Short offset)
Table 46. The following value is added to Rs when the cable is extended.
Cable length
1 m
2 m
4 m
0.25 mΩ
0.5 mΩ
1 mΩ
Temperature coefficient Kt
Table 47. Temperature coefficient Kt is given below.
Temperature [°C]
0 - 18
Kt
4
18 - 28
1
28 - 55
4
26 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Table 48. Power source
General Specifications
Voltage
90 VAC - 264 VAC
47 Hz - 63 Hz
Max. 150 VA
Frequency
Power consumption
Table 49. Operating environment
Temperature
0 - 55 °C
Humidity (≤ 40 °C, no condensation)
Altitude
15% - 85% RH
0 m - 2000 m
Table 50. Storage environment
Temperature
–20 - 70 °C
Humidity ( ≤ 60 °C, no condensation)
Altitude
0% - 90% RH
0 m - 4572 m
Outer dimensions: 375 (width) x 105 (height) × 390 (depth) mm (nominal)
367.4
14.4
338.6
14.4
41.8
E4980A
20 Hz - 2 MHz
Preset
Trigger
Precision LCR Meter
7
4
1
0
8
5
9
6
3
DC
DC
Source
USB
Bias
2
.
UNKNOWN
DC Bias
Discharge test device before connecting
42V Peak Max Output CAT
Display
Format
Meas
Setup
I
DC
Source
L
CUR
L
POT
H
POT
HCUR
DC Source
(Option 001)
Return
10VDC Max
Save/
Recall
Local/
Lock
Recall
A
Recall
B
System
22
27
22
22
40.1
55.2
Figure 2. Dimensions (front view, with handle and bumper, in millimeters, nominal)
319.1
32.0
E4980A
20 Hz - 2 MHz
Precision LCR Meter
Preset
Trigger
7
4
1
0
8
5
9
6
3
DC
DC
Source
Bias
USB
2
.
UNKNOWN
DC Bias
Discharge test device before connecting
42V Peak Max Output CAT
Display
Format
Meas
Setup
I
DC
Source
L
CUR
L
POT
H
POT
H
CUR
DC Source
(Option 001)
Return
10VDC Max
Save/
Recall
Local/
Lock
Recall
A
Recall
B
System
55.2
27
22
22
22
30.3
Figure 3. Dimensions (front view, without handle and bumper, in millimeters, nominal)
27 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
367.4
332.2
17.6
17.6
118.1
41.6
23.2
34.7
Serial Label
E4980A
LAN
Trigger
GPIB
115V
-230V
50/60Hz
150VA MAX
Fuse
Option 710: No Interface
Option 710: No Interface
T3A , 250V
113.9
72.3
72.3
31.1
0.4
Option 002: DC Current Control Interface
Option 301: Scanner Interface
Option 201: Handler Interface
36.2
36.2
72.3
36.2
72.3
72.3
Figure 4. Dimensions (rear view, with handle and bumper, in millimeters, nominal)
317.8
110.9
41.6
23.2
27.5
Serial Label
E4980A
LAN
Trigger
GPIB
115V
-230V
50/60Hz
150VA MAX
Fuse
Option 710: No Interface
Option 710: No Interface
T3A , 250V
106.7
72.3
72.3
24.0
0.4
Option 002: DC Current Control Interface
Option 301: Scanner Interface
Option 201: Handler Interface
Figure 4. Dimensions (rear view, with handle and bumper, in millimeters, nominal)
28 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
388.7
66.6
141.4
Figure 6. Dimensions (side view, with handle and bumper, in millimeters, nominal)
374.0
347.9
15.7
10.5
19.7
50.9
Figure 7. Dimensions (side view, without handle and bumper, in millimeters, nominal)
Weight: 5.3 kg (nominal)
Display: LCD, 320 × 240 (pixels), RGB color
Note
Effective pixels are more than 99.99%. There
may be 0.01% (approx. 7 pixels) or smaller
missing pixels or constantly lit pixels, but this
is not a malfunction.
The following items can be displayed:
– Measurement value
– Measurement conditions
– Limit value and judgment result of comparator
– List sweep table
– Self-test message
29 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Description
EMC
Supplemental Information
European Council Directive 2004/108/EC
IEC 61326-1:2012
EN 61326-1:2013
CISPR 11:2009 +A1:2010
EN 55011: 2009 +A1:2010
Group 1, Class A
IEC 61000-4-2:2008
EN 61000-4-2:2009
4 kV CD / 8 kV AD
IEC 61000-4-3:2006 +A1:2007 +A2:2010
EN 61000-4-3:2006 +A1:2008 +A2:2010
3 V/m, 80-1000 MHz, 1.4 - 2.0 GHz / 1V/m, 2.0 - 2.7 GHz, 80% AM
IEC 61000-4-4:2004 +A1:2010
EN 61000-4-4:2004 +A1:2010
1 kV power lines / 0.5 kV signal lines
IEC 61000-4-5:2005
EN 61000-4-5:2006
0.5 kV line-line / 1 kV line-ground
IEC 61000-4-6:2008
EN 61000-4-6:2009
3 V, 0.15-80 MHz, 80% AM
IEC 61000-4-8:2009
EN 61000-4-8:2010
30A/m, 50/60Hz
IEC 61000-4-11:2004
EN 61000-4-11:2004
0.5-300 cycle, 0% / 70%
ICES/NMB-001
ICES-001:2006 Group 1, Class A
AS/NZS CISPR11:2004
Group 1, Class A
KN11, KN61000-6-1 and KN61000-6-2
Group 1, Class A
Safety
European Council Directive 2006/95/EC
IEC 61010-1:2001/EN 61010-1:2001
Measurement Category I, Pollution Degree 2, Indoor Use
IEC60825-1:1994 Class 1 LED
CAN/CSA C22.2 61010-1-04
Measurement Category I, Pollution Degree 2, Indoor Use
Environment
This product complies with the WEEE Directive (2002/96/EC) marking
requirements. The afixed label indicates that you must not discard this elec-
trical/electronic product in domestic house hold waste.
Product Category: With reference to the equipment types in the WEEE
Directive Annex I, this product is classed as a “Monitoring and Control
instrumentation” product.
30 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Settling time
Supplemental Information
Table 51. Test frequency setting time
Test frequency setting time
Test frequency (Fm)
Fm ≥ 1 kHz
5 ms
12 ms
22 ms
42 ms
1 kHz > Fm ≥ 250 Hz
250 Hz > Fm ≥ 60 Hz
60 Hz > Fm
Table 52. Test signal voltage setting time
Test signal voltage setting time
Test frequency (Fm)
Fm ≥ 1 kHz
11 ms
18 ms
26 ms
48 ms
1 kHz > Fm ≥ 250 Hz
250 Hz > Fm ≥ 60 Hz
60 Hz > Fm
Switching of the impedance range is as follows:
≤ 5 ms/ range switching
Measurement circuit protection
The maximum discharge withstand voltage, where the internal circuit remains protected
if a charged capacitor is connected to the UNKNOWN terminal, is given below.
Note
Discharge capacitors before connecting them
to the UNKNOWN terminal or a test fixture to
avoid damages to the instrument.
Table 53. Maximum discharge withstand voltage
Maximum discharge withstand voltage
Range of capacitance value C of DUT
1000 V
C < 2 µF
———
√
2 µF ≤ C
2/C V
1200
1000
800
600
400
200
0
1.E–15
1.E–13
1.E–11
1.E–09
1.E–07
1.E–05
1.E–03
Capacitance [F]
Figure 8. Maximum discharge withstand voltage
31 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Measurement time
Definition
This is the time between the trigger and the end of measurement (EOM) output on the
handler interface.
Conditions
Table 54 shows the measurement time when the following conditions are satisfied:
– Normal impedance measurement other than Ls-Rdc, Lp-Rdc, Vdc-Idc
– Impedance range mode: hold range mode
– DC bias voltage level monitor: OFF
– DC bias current level monitor: OFF
– Trigger delay: 0 s
– Step delay: 0 s
– Calibration data: OFF
– Display mode: blank
Table 54. E4980A measurement time [ms](DC bias:OFF)
Measurement
time mode
Test frequency
20 Hz
480
100 Hz
1 kHz
240
110
10 kHz
230
92
100 kHz 1 MHz
2 MHz
220
88
1
2
3
LONG
MED
300
180
100
220
89
220
88
380
SHORT
330
20
7.7
5.7
5.6
5.6
10
1
1. LONG
2. MED
3. SHORT
0.1
0.01
0.001
20
100
1k
10k
Test frequency [Hz]
100k
1M 2M
Figure 9. Measurement time (E4980A, DC bias: OFF)
32 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Table 55. E4980A-005 measurement time [ms] (DC bias: OFF)
Measurement
time mode
Test frequency
20 Hz
1190
1150
1040
100 Hz 1 kHz
10 kHz 100 kHz 1 MHz
2 MHz
570
180
1
2
3
LONG
MED
650
380
240
590
200
37
580
180
25
570
180
23
570
180
23
SHORT
23
10
1
1. LONG
2. MED
3. SHORT
0.1
0.01
0.001
20
100
1k
10k
Test frequency [Hz]
100k
1M 2M
Figure 10. Measurement time (DC bias: OFF, E4980A-005)
Table 56. E4980AL measurement time [ms]
Measurement
time mode
Test frequency
20 Hz
729
100 Hz
1 kHz
10 kHz
100 kHz
343
1 MHz
1
2
3
LONG
MED
423
250
149
363
140
26
353
122
14
343
118
12
650
119
SHORT
579
12
10
1
1. LONG
2. MED
3. SHORT
0.1
0.01
0.001
20
100
1k
10k
Test frequency [Hz]
100k
1M 2M
Figure 11. Measurement time (E4980AL)
33 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
When DC bias is ON, the following time is added:
Table 57. Additional time when DC bias is ON [ms]
Test frequency
20 Hz
100 Hz
1 kHz
10 kHz
100 kHz
1 MHz
2 MHz
30
30
10
13
2
0.5
0.5
When the number of averaging increases, the measurement time is given as
Equation 17.
MeasTime + (Ave – 1) × AveTime
MeasTime
Ave
Measurement time calculated based on Table 53 and Table 54
Number of averaging
AveTime
Refer to Table 56
Table 58. Additional time per averaging [ms]
Measurement
time mode
Test frequency
20 Hz
51
100 Hz
1 kHz
2.4
10 kHz
2.3
100 kHz 1 MHz
2 MHz
2.2
SHORT
MED
11
2.3
85
2.2
84
110
81
88
87
84
LONG
210
210
220
220
220
210
210
Table 59. Measurement time when Vdc-Idc is selected [ms]
Measurement time Test frequency
mode
20 Hz
210
100 Hz
46
1 kHz
14
10 kHz
14
100 kHz 1 MHz
2 MHz
14
SHORT
MED
14
14
210
170
170
410
170
170
410
170
410
170
410
LONG
410
410
410
Add the same measurement time per 1 additional average
Additional Measurement time when the Vdc and Idc monitor function is ON.
Add SHORT mode of Table 59. When using only Vdc or Idc, add a half of SHORT mode of
Table 59.
Table 60. Measurement time when Ls-Rdc or Lp-Rdc is selected [ms]
Measurement time Test frequency
mode
20 Hz
910
100 Hz
230
1 kHz
43
10 kHz
24
100 kHz 1 MHz
2 MHz
22
SHORT
MED
22
22
1100
1400
450
300
700
280
670
270
660
270
650
270
LONG
820
650
Add the three times of measurement time per 1 additional average number
34 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Display time
Except for the case of the DISPLAY BLANK page, the time required to update the display
on each page (display time) is as follows. When a screen is changed, drawing time and
switching time are added. The measurement display is updated about every 100 ms.
Table 61. Display time
Item
When Vdc, Idc
monitor is OFF
When Vdc, Idc
monitor is ON
MEAS DISPLAY page drawing time
10 ms
10 ms
10 ms
10 ms
40 ms
35 ms
13 ms
13 ms
13 ms
13 ms
—
MEAS DISPLAY page (large) drawing time
BIN No. DISPLAY page drawing time
BIN COUNT DISPLAY page drawing time
LIST SWEEP DISPLAY page drawing time
Measurement display switching time
—
Measurement data transfer time
This table shows the measurement data transfer time under the following conditions.
The measurement data transfer time varies depending on measurement conditions and
computers.
Table 62. Measurement transfer time under the following conditions:
Host computer:
DELL OPTIPLEX GX260 Pentium 4 2.6 GHz
Display:
ON
Impedance range mode:
OPEN/SHORT/LOAD compensation:
Test signal voltage monitor:
AUTO (The overload has not been generated.)
OFF
OFF
Table 63. Measurement data transfer time [ms]
Interface Data
transfer
Using :FETC? command
(one point measurement)
Using data buffer memory
(list sweep measurement)
format
Comparator Comparator 10
51
128
201
ON
OFF
points
points
points
points
GPIB
USB
LAN
ASCII
2
2
4
5
4
3
4
3
5
5
5
13
15
10
8
28
34
21
16
19
9
43
53
32
23
28
13
36
44
26
ASCII Long
Binary
2
2
2
2
ASCII
2
2
ASCII Long
Binary
2
2
9
2
2
5
ASCII
3
4
12
13
9
24
29
18
ASCII Long
Binary
3
3
3
3
35 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
DC bias test signal current (1.5 V/2.0 V): Output current: Max. 20 mA
Option 001 (Power and DC Bias enhance):
DC bias voltage: DC bias voltage applied to DUT is given as:
Equation 18.
Vdut = Vb – 100 × Ib
Vdut [V] DC bias voltage
Vb [V] DC bias setting voltage
Ib [A]
DC bias current: DC bias current applied to DUT is given as:
Equation 19. Idut = Vb/(100 + Rdc)
DC bias current
Idut [A] DC bias current
Vb [V] DC bias setting current
Rdc [Ω] DUT’s DC resistance
Maximum DC bias current
Table 64. Maximum DC bias current when the normal measurement can be performed.
Impedance Bias current isolation
range [Ω]
ON
OFF
Test signal voltage ≤ 2 Vrms
Test signal voltage > 2 Vrms
0.1
Auto range mode: 20 mA
100 mA
100 mA
100 mA
100 mA
100 mA
20 mA
20 mA
2 mA
100 mA
1
20 mA
20 mA
20 mA
2 mA
Hold range mode:
its values for
the range.
10
100
300
1 k
2 mA
3 k
200 µA
200 µA
20 µA
20 µA
10 k
30 k
100 k
2 mA
200 µA
When DC bias is applied to DUT
When DC bias is applied to the DUT, add the following value to the absolute accuracy Ab.
Table 65. Only when Fm < 10 kHz and |Vdc| > 5 V
SHORT
MED, LONG
0.05% × (100 mV/Vs) × (1 + √(100/Fm))
0.01% × (100 mV/Vs) × (1 + √(100/Fm))
Fm [Hz] Test frequency
Vs [V]
Test signal voltage
36 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Relative measurement accuracy with bias current isolation
When DC bias Isolation is set to ON, add the following value to the open offset Yo.
√
Equationꢀ20.ꢀ
Yo_DCI1ꢀ×ꢀ(1ꢀ+ꢀ1/(Vs))ꢀ×ꢀ(1ꢀ+ꢀꢀ (500/Fm))ꢀ+ꢀYo_DCI2
Zm [Ω]
Impedance of DUT
Fm [Hz]
Vs [V]
Test frequency
Test signal voltage
Yo_DCI1,2 [S]
Idc [A]
Calculate this by using Table 61 and 62
DC bias isolation current
Table 66. Yo_DCI1 value
DC bias current range
Measurement time mode
SHORT
0 S
0.25 nS
2.5 nS
25 nS
250 nS
MED, LONG
0 S
0.05 nS
0.5 nS
5 nS
20 µA
200 µA
2 mA
20 mA
100 mA
50 nS
Table 67. Yo_DCI2 value
DC bias current
range
20 µA
Measurement time mode
≤ 100 Ω
0 S
300 Ω, 1 k Ω
0 S
3 k Ω, 10 k Ω
0 S
30 k Ω, 100 k Ω
0 S
200 µA
2 mA
20 mA
0 S
0 S
0 S
0 S
0 S
0 S
0 S
300 nS
0 S
0 S
30 nS
300 nS
0 S
3 nS
30 nS
300 nS
100 mA
DC bias settling time
When DC bias is set to ON, add the following value to the settling time:
Table 68. DC bias settling time
Bias
Settling time
1
2
Standard
Option 001
Capacitance of DUT × 100 × loge (2/1.8 m) + 3 m
Capacitance of DUT × 100 × loge (40/1.8 m) + 3 m
100 sec
10 sec
1 sec
100 msec
10 msec
2.
1.
1 mF
1 µF
10 µF
100 µF
10 mF
100 mF
DUT capacitance
Figure 12. DC bias settling time
37 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
Web Resources
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38 | Keysight | E4980A Precision LCR Meter 20 Hz to 2 MHz, E4980AL Precision LCR Meter 20 Hz to 300 kHz/500 kHz/1 MHz – Data Sheet
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Published in USA, August 17, 2016
5989-4435EN
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