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AMM-3035 RLC Meter

Inductance Ranges: 20μH - 2000H (±0,2+2d), Capacitance Ranges: 20pF-20mF (±0,2+3d), Resistance Ranges 20Ω - 200MΩ (±0,2+2d), Quality (Q) Ranges: 0.000 - 999, Dissipation (D) Ranges: 0,000 - 999, Theta Ranges ±90 degree

Manuals: 
User's Manual (1.65 Mb)

AKTAKOM AMM-3035 RLC Meter features with innovative automatic selection technology, automatically measuring R, L and C with Q, D and Θ by just turning on the meter. The testing frequency is up to 10 KHz and it can output up to 100KHz test frequency. It provides high accuracy with four or five terminal Kelvin measurements.

  • Overload Indication
  • Lower Battery Indication
  • Auto Power Off

Features

  • Sampling rate: 5 times/sec
  • Overload Indication: "OL" or "-OL"
  • Auto Power Off: 10 minutes
  • Operating Temp 0-50°C,<=80%R.H.
  • Storage Temp: -20-60°C
  • Temp. coefficient: 0.15(Spec.Acc)/°C,<18°C or>28°C
  • Safety: Comply with IEC61000 EMC standard
  • Power Requirement: AA size 1.5V X 4 batteries (NEDA 15A or IEC LR6)
  • Battery Life: 30 hours (Alkaline battery)

Specifications

Inductance @ Ta=18~28°C (De)

Frequency = 100Hz/120Hz

Range Resolution Lx Accuracy DF Accuracy Measurement Mode
20.000mH 1uH 1.5%±10d 1.5%±50d Series
200.00mH 0.01mH 1.4%±15d 1.4%±50d Series
2000.0mH 0.1mH 1.5%±15d 1.5%±50d Series
20.000H 1mH 1.6%±10d 1.6%±50d ---
200.00H 0.01H 1.3%±10d 1.3%±50d Parallel
2000.0H 0.1H 2.0%±15d 2.0%±50d Parallel
20.000kH 0.001kH 2.5%±15d 2.5%±50d Parallel

Frequency = 1kHz

Range Resolution Lx Accuracy DF Accuracy Measurement Mode
2000.0uH 0.1uH 1.3%±10d 1.3%±50d Series
20.000mH 1uH 1.2%±10d 1.2%±50d Series
200.00mH 0.01mH 1.2%±10d 1.2%±50d Series
2000.0mH 0.1mH 1.5%±15d 1.5%±50d ---
20.000H 1mH 1.5%±15d 1.5%±50d Parallel
200.00H 0.01H 2.0%±10d 2.0%±50d Parallel
2000.0H 0.1H 2.5%±15d 2.5%±50d Parallel

Frequency = 10kHz

Range Resolution Lx Accuracy DF Accuracy Measurement Mode
200.00uH 0.01uH 1.8%±10d 1.8%±50d Series
2000.0uH 0.1uH 1.5%±10d 1.5%±50d Series
20.000mH 1uH 1.2%±10d 1.2%±50d Series
200.00mH 0.01mH 1.5%±15d 1.5%±50d ---
2000.0mH 0.1mH 2.0%±10d 2.0%±50d Parallel
20.000H 1mH 2.5%±15d 2.5%±50d Parallel

Frequency = 100kHz

Range Resolution Lx Accuracy DF Accuracy Measurement Mode
20.000uH 0.001uH 2.5%±10d 2.5%±50d Series
200.00uH 0.01uH 1.5%±10d 1.5%±50d Series
2000.0uH 0.1uH 1.3%±15d 1.3%±50d Series
20.000mH 1uH 2.0%±15d 2.0%±50d Parallel
200.00mH 0.01mH 2.5%±15d 2.5%±50d Parallel

Capacitance @ Ta=18~28°C (De)

Frequency = 100Hz/120Hz

Range Resolution Cx Accuracy DF Accuracy Measurement Mode
20.000nF 1pF 2.5%±10d 2.5%±50d Parallel
200.00nF 0.01nF 1.2%±10d 1.2%±50d ---
2000.0nF 0.1nF 0.9%±10d 0.9%±50d ---
20.000uF 1nF 1.0%±15d 1.0%±50d Series
200.00uF 0.01uF 1.2%±10d 1.2%±50d Series
2000.0uF 0.1uF 2.5%±10d 2.5%±50d Series
20.00mF 0.01mF 5.0%±10d 5.0%±50d Series

Frequency = 1kHz

Range Resolution Cx Accuracy DF Accuracy Measurement Mode
2000.0pF 0.1pF 3.5%±15d 3.5%±50d Parallel
20.000nF 1pF 1.0%±10d 1.0%±50d ---
200.00nF 0.01nF 0.9%±10d 0.9%±50d ---
2000.0nF 0.1nF 1.0%±10d 1.0%±50d Series
20.000uF 1nF 1.2%±15d 1.2%±50d Series
200.00uF 0.01uF 2.5%±10d 2.5%±50d Series
2000uF 1uF 4%±20d 4%±50d Series

Frequency = 10kHz

Range Resolution Cx Accuracy DF Accuracy Measurement Mode
200.00pF 0.01pF 3.0%±8d 3.0%±50d Parallel
2000.0pF 0.1pF 1.0%±10d 1.0%±50d ---
20.000nF 1pF 0.9%±10d 0.9%±50d ---
200.00nF 0.01nF 0.8%±10d 0.8%±50d Series
2000.0nF 0.1nF 1.0%±8d 1.0%±50d Series
20.000uF 1nF 2.0%±8d 2.0%±50d Series
200.0uF 0.1uF 4.5%±15d 4.5%±50d Series

Frequency = 100kHz

Range Resolution Cx Accuracy DF Accuracy Measurement Mode
200.00pF 0.01pF 2.5%±15d 2.5%±50d Parallel
2000.0pF 0.1pF 1.0%±8d 1.0%±50d Parallel
20.000nF 1pF 1.8%±8d 1.8%±50d Parallel
200.00nF 0.01nF 1.5%±10d 1.5%±50d Series
2000.0nF 0.1nF 2.5%±15d 2.5%±50d Series

Resistance @ Ta=18~28°C (De)

Frequency = 100Hz/120Hz

Range Resolution Rx Accuracy Measurement Mode
200.00Ω 0.01Ω 1.2%±10d ---
2.0000kΩ 0.1Ω 0.8%±5d ---
20.000kΩ 0.9%±5d ---
200.00kΩ 0.01kΩ 0.7%±3d ---
2.0000MΩ 0.1kΩ 1.0%±5d ---
20.000MΩ 1kΩ 2.2%±10d ---
200.0MΩ 0.1MΩ 2.5%±10d ---

Frequency = 1kHz

Range Resolution Rx Accuracy Measurement Mode
20.000Ω 1mΩ 1.2%±10d ---
200.00Ω 0.01Ω 0.8%±5d ---
2.0000kΩ 0.1Ω 0.8%±3d ---
20.000kΩ 0.7%±3d ---
200.00kΩ 0.01kΩ 1.0%±5d ---
2.0000MΩ 0.1kΩ 1.5%±10d ---
20.000MΩ 1kΩ 1.8%±10d ---
200.0MΩ 0.1MΩ 6.0%±50d ---

Frequency = 10kHz

Range Resolution Rx Accuracy Measurement Mode
20.000Ω 1mΩ 1.5%±10d ---
200.00Ω 0.01Ω 0.8%±10d ---
2.0000kΩ 0.1Ω 0.9%±5d ---
20.000kΩ 0.8%±3d ---
200.00kΩ 0.01kΩ 1.0%±5d ---
2.0000MΩ 0.1kΩ 2.5%±10d ---
20.00MΩ 0.01MΩ 2.8%±10d ---

Frequency = 100kHz

Range Resolution Rx Accuracy Measurement Mode
20.000Ω 1mΩ 2.3%±10d ---
200.00Ω 0.01Ω 1.5%±5d ---
2.0000kΩ 0.1Ω 0.8%±20d ---
20.000kΩ 0.8%±20d ---
200.00kΩ 0.01kΩ 1.5%±10d ---
2.000MΩ 1kΩ 2.5%±30d ---

DC resistance @ Ta=18~28°C (De)

Frequency = 100Hz/120Hz/1kHz/10kHz/100kHz

Range Resolution Rx Accuracy Measurement Mode
200.00Ω 0.01Ω 1.8%±10d ---
2.0000kΩ 0.1Ω 0.6%±20d ---
20.000kΩ 0.6%±10d ---
200.00kΩ 0.01kΩ 0.5%±3d ---
2.0000MΩ 0.1kΩ 1.5%±5d ---
20.000MΩ 1kΩ 2.0%±5d ---
200.0MΩ 0.1MΩ 2.5%±5d ---

D value Accuracy @ Ta=18~28°C (De)

Freq./Z 0.1-1Ω 1-10Ω 10Ω–100kΩ 100kΩ–1MΩ 1–20ΜΩ 20−200MΩ
100/120Hz ±0.030 ±0.010 ±0.009 ±0.010 ±0.020 ±0.040
1kHz ±0.030 ±0.010 ±0.009 ±0.010 ±0.020 ±0.090
10kHz ±0.030 ±0.010 ±0.009 ±0.009 ±0.010 ±0.040
100kHz ±0.040 ±0.030 ±0.010 ±0.010 ±0.020 ±0.040

Θ value Accuracy @ Ta=18~28°C

Freq./Z 0.1Ω-1Ω 1-10Ω 10Ω–100kΩ 100kΩ–1MΩ 1–20ΜΩ 20−200MΩ
100/120Hz ±0.65° ±0.36° ±0.23° ±0.45° ± 0.65° ±1.35°
1kHz ±0.65° ±0.36° ±0.23° ±0.45° ±0.65° ±3.63°
10kHz ±0.65° ±0.36° ±0.23° ±0.45° ±1.35° N/A
100kHz ±1.27° ±0.65° ±0.49° ±0.65° ±1.35°

Size(H×W×D): 7.8×3.8×2.4in/200×96×60mm

Weight: 12.7oz/360g

Accessories

1. Test leads

2. Test leads green

3. Tweezers

4. Probes

2. 6 x 1.5V “AA” batteries

Capacitance measurement

Capacitance measurement

Inductance measurement

Inductance measurement

Resistance measurement

Resistance measurement

Processing calibration before measurement

In order to improve the accuracy of high/low impedance, it is recommended to do OPEN/SHORT calibration mode before measurement. Press and hold down the button for 2 seconds to enter calibration mode. The calibration procedure: OPEN ready¹ →[CAL] → OPEN calibration (30s) →[CAL] → SHORT ready² → [CAL]→ SHORT calibration (30s) . During open or short calibration processing, the 30-second countdown will be shown on LCD panels. If the calibration procedure is finished, the PASS or FAIL symbol will shown on the primary display. If PASS symbol for both OPEN and SHORT modes, the calibration data will be saved after push CAL key again.

¹OPEN ready means the input sockets or terminals have nothing connected
²SHORT ready means put a shorting bar or a short piece of conductive metal (i.e. paper clip) across the “+” and “-” input sockets or terminals.

Open Calibration (left) and Short Calibration (right)

Sorting a bunch of components

The sorting mode could help the user to make a quick sort for a bunch of components. Select the primary measurement mode (L/C/R) based on the type of components to be measured. Insert the component to be used as the “standard” reference value. Another words, insert a known “good” component that will be used for testing against all other components. Press [SORTING] button to enter to the sorting mode. The sorting mode cannot be activated unless the meter senses a component is connected to either the input sockets or terminals . When sorting mode is activated, the reference value, range and the tolerance settings can be modified.
The setting process:
[SETUP]→ range setting(use </>) → [ENTER] → reference value setting (use ∧/∨/</>) →[ENTER] → tolerance setting(use </ >) →[ENTER] →sorting mode
The tolerance range setting selection: +0.25% → ±0.5% → ±1% → ±2% → ±5% → ±10% → ±20% →+80%-20%. The default tolerance is ±1%.

In the sorting mode, the primary display to show PASS or FAIL status depends on whether the impedance measured exceeds tolerance range. The current measurement result will be shown on the secondary display. Press the [SORTING] button to exit this mode.

WARNING: If the component to be measured is a capacitor, be sure that the capacitor is fully discharged BEFORE inserting it into the input sockets or terminals. For large capacitors, it may take longer periods of time for a full discharge. Inserting a charged or partially charged capacitor into the meter’s input sockets or terminals may produce an electric hazard and may also damage the instrument, making it unusable


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