LMG640

Product description

LMG640 - Power Analysis²

One-shot Results for Narrowband, Full Spectrum and Harmonics

Features:

Measurement Channels	Outstanding accuracy of 0.015% of measured value + 0.01% of range Full dynamic range of 500 µA to 32 A / 3 mV to 1000 V per channel available in single instrument Power measurements from standby to full load (max. 32 A) without mechanical changes Analog bandwidth DC up to 10 MHz Modular configuration with 1 to 4 power measurement channels (alternatively 3 channels + 1 I/O card) Gapless sampling up to 18 bit and a cycle time of 30 ms Delay time between V and I input < 3ns, very precise measurements at small power factors (PF) and/or high frequencies
Features	Simultaneous measurement of narrow- and broadband values through innovative DualPath architecture Simultaneous capturing of fundamental frequency and broadband RMS values for instantaneous detection of losses, resp. high-frequency components Harmonics and interharmonics up to 2000. order, as required by EN61000-4-7 With optional I/O card speed/torque inputs freely configurable for all signal types (analogue, frequency as RS422,TTL or HTL) via menu Flexible scripting tool for custom applications Simultaneous measurement of V, I, P values and harmonics, presentation in tabular or graphical form Signal filters freely configurable by frequency, type and characteristics Synchronization to up to 4 different frequencies simultaneously Flicker measurement, interactions between grid and appliance according to EN61000-4-15
User-Interface	Large and clearly arranged touchscreen GUI for intuitive handling All instrument features displayed, identical look-and-feel for local and remote operation for quick and easy familiarization
Memory and Interfaces	Internal storage of long-term measurements even with shortest cycle-time thanks to integrated mass storage device Excellent connectivity via USB2.0, Gbit-LAN, RS-232 and DVI/VGA
Miscellaneous	Convenient "plug-and-measure" through automated sensor detection no external sensor power supply required 12 months guaranteed calibration interval for minimal service cost and optimal availability Calibration certificate included free-of-charge in first delivery 24 months warranty

Features

DualPath

Flexibility

A/B/C-Channels

Plug ’n’ Measure

Custom Menu

Interfaces

Star-Delta

Calibration

Warranty

Harmonics

Process signals

Flexible Filter

Synchronization

Remote control

Continuity

Exact signal transit time

Simultaneous measurement in two bandwidths thanks DualPath - no compromises, no doubt

In Power meters of traditional construction, a signal first passes through an analog processing, the output values are digitized by an A / D converter and then processed. The resulting signal may then either measured over the full range, or treated with anti-aliasing filters, e.g., to serve as the basis for an FFT or other digital filtering. By restriction to an A / D converter, one has to taken certain disadvantages into account. If measured with a filter, in order to avoid aliasing in the FFT, the broadband values are lost. When the filter is disengaged, strictly speaking, the FFT has to be omitted. If the FFT is performed without anti-aliasing filter for measurement over the full bandwidth, the quality of the calculated values is questionable. For example, an aliasing error of 50% would of course be easily detected, a deviation of 0.5% could remain unnoticed. Finally, it can be switched back and forth between measurements with and without filters. The validity of these results is, however, also doubtful, as would be expected of a temporal invariability of the signal, which is hardly ever the case in reality. Moreover, this method is extremely time consuming.

Ultimately, the shown measurement methods are unsatisfactory compromises. For this reason, ZES ZIMMER has radically redesigned the signal conditioning and developed the DualPath architecture. The analog side corresponds to the conventional instruments, the subsequent digital processing, however, was revolutionized. The power analyzers of the LMG600 Series are the first power meters featuring two A / D converters in each of the two independent signal paths for current and voltage channel. A filter for the contact measurement of the broadband signal, and another for the narrowband signal at the output of anti-aliasing filter. By means of parallel processing of the digitized samples, the user has access to both measurements of the same signal without the risk of aliasing. This unique process eliminates all the disadvantages of previous approaches and guarantees accurate results in the shortest time.

Measurement Channels

Options

L6-OPT-CE-FLK	Option Package CE Flicker for LMG600, consisting of: - the LMG flicker meter according to EN61000-4-15 (L6-OPT-FLK) as well as - the PC software** LMG Test Suite (LMG-TEST-CE-FLK) for analysis of measured values according to EN61000-3-3 and EN61000-3-11 for 1-phase and 3-phase* equipment under test
L6-OPT-CE-HRM	Option Package CE Harmonics for LMG600, consisting of: - the harmonic analysis of the measured signals in the LMG (L6-OPT-HRM) as well as - the PC software** LMG Test Suite (LMG-TEST-CE-HRM) for analysis of measured values according to EN61000-3-2 and EN61000-3-12 for 1-phase and 3-phase* equipment under test
L6-OPT-CE-HRMFLK	Option Package CE Harmonics and Flicker for LMG600, consisting of: - the harmonic analysis of the measured signals in the LMG (L6-OPT-HRM), - internal flicker meter according to EN61000-4-15 (L6-OPT-FLK) as well as - the PC software** LMG Test Suite (LMG-TEST-CE-HRM + LMG-TEST-CE-FLK) for analysis of measured values according to EN61000-3-2 / EN61000-3-12 and EN61000-3-3 / EN61000-3-11, each for 1-phase and 3-phase* equipment under test
L6-OPT-DVI	DVI / VGA Interface for connection of an external display, beamer, touch device
L6-OPT-PSI	Process Signal Interface 8 digital inputs, 8 digital outputs, 2 fast analog inputs (150 kS/s, 15 kHz bandwidth), 8 slow analog inputs (DC), 32 analog outputs, 2 frequency inputs (frequency, orientation, position; DTL, HTL or differential)
L6-OPT-CAN	CAN bus interface: find more information here CAN bus connectivity according to ISO 11898-2 (high-speed CAN) - bit rate: 5 kbit/s to 1Mbit/s - galvanic separation at CAN connector: up to 500V - active support of CAN 2.0A and B standards - Standard Frame Format or Extended Frame Format for sending measurement results - manual polling of measurement values possible via Remote Transmission Request (RTR)
L6-OPT-SDC	Star-Delta-Conversion Minimum requirement LMG600 with at least 3 power channels of the same type
L6-OPT-EVT	Event Triggering: find more information here triggering on crossing voltage or current thresholds recording of 16 tracks with up to 4 million values each
L6-OPT-HRM	Harmonic analysis up to max. 1.000th order (2.000th order with interharmonics) of U, I, P, Q and S, fundamental 3 ... 1200 Hz, up to 150 kHz (A channel) resp. 15 kHz (B channel) or 10 kHz (C channel) with anti-aliasing filter, customizable settings for the detection of interharmonics
L6-OPT-FLK	Flicker meter according to EN61000-4-15
L6-OPT-SMV	Smart Vision Smart add-on functions for the convenient evaluation of measurements The package includes: - Painter: screenshots can be enriched with valuable additional information directly in the GUI before saving - Env Var Watcher: script-controlled visual watchdog as part of a custom menu
L6-OPT-SPV	Sample Value Analysis Module for LMG600 Software* for continuous and gapless streaming of sample values on 16 tracks at a rate of 10 kS/s (up to 1.2 MS/s under optimal conditions), furthermore: - display of sample recordings in ZLR format - display of frequency spectrum of recorded sample values - calculation of RMS values of voltage, current and power - CSV or MATLAB export of frequency spectrum and RMS values
L6-OPT-MSD-320	Mass Storage Device for Measurement Results (320 GB) Internal mass storage device for long-time recording of measurements (capacity 320 GB) Some space is used for the system.

* Note: power analyzer has to be equipped with at least three channels of same type for 3-phase measurements

** System requirements:
- Operating system: Windows 7/8/10 (32/64 bit)
- Hard drive: software: min. 50 MB, data: approx. 20 MB per minute of measurement/phase
- RAM memory: min. 2 GB
- Processor: min. 2 GHz, dual-core
- Interfaces supported: Gbit-Ethernet

Applications

Inductive Components and Magnetic Cores

Switching Power Supplies

Aviation Compliance

Ultra-high-speed Machines

2 challenges - highly efficient results

Frequency converter

Measuring Frequency Converters

Lighting Engineering

Application notes

Technical Specifications

Dimensions	Width	Heighth	Depth
LMG640 (Table top)	284 mm	177 mm	590 mm
LMG640 (Rack)	55 HP	4 RU	590 mm

Weight	Depending on installed options: max. 14.0 kg
Protection class	EN 61010 (IEC 61010, VDE 0411), protection class I / IP20 in accordance with EN 60529
Electromagnetic compatibility	EN 61326
Temperature	0 ... 40 °C (operation) / -20 ... 50 °C (storage)
Climatic category	Normal environmental conditions according to EN 61010
Line input	100 ... 230 V, 47 ... 63 Hz, max. 400 W

Technical Data (Summary), valid for 0 ≤ λ ≤ 1

A channel

Accuracy

± (% of measured value + % of maximum peak value)

DC

0.05 Hz ... 45 Hz 65 Hz ... 3 kHz

45 Hz ... 65 Hz

3 kHz ... 10 kHz

10 kHz ... 50 kHz

50 kHz ... 100 kHz

100 kHz ... 500 kHz

500 kHz...1 MHz

1 MHz ... 2 MHz

2 MHz ... 10 MHz

Voltage U*

0.02+0.08

0.015+0.03

0.01+0.02

0.03+0.06

0.2+0.4

0.5+1.0

f/1 MHz*1.5 + f/1 MHz*1.5

Voltage U_SENSOR

0.02+0.08

0.015+0.03

0.01+0.02

0.03+0.06

0.2+0.4

0.4+0.8

f/1 MHz*0.7 + f/1 MHz*1.5

Current I* 5 mA...5 A

0.02+0.1

0.015+0.03

0.01+0.02

0.03+0.06

0.2+0.4

0.5+1.0

f/1 MHz*1.0 +

f/1 MHz*2.0

-

Current I* 10 A...32 A

0.02+0.1 ^{^[1]}⁾

0.015+0.03³⁾

0.01+0.02³⁾

0.1+0.2³⁾

0.3+0.6³⁾

f/100 kHz*0.8 + f/100 kHz*1.2³⁾

-

Current I_SENSOR

0.02+0.08

0.015+0.03

0.01+0.02

0.03+0.06

0.2+0.4

0.4+0.8

f/1 MHz*0.7 + f/1 MHz*1.5

Power U*/ I* 5 mA...5 A

0.032+0.09

0.024+0.03

0.015+0.01

0.048+0.06

0.32+0.4

0.8+1.0

f/1 MHz*2.0 +

f/1 MHz*1.8

-

Power U*/ I* 10 A...32 A

0.032+0.09²⁾

0.024+0.03⁴⁾

0.015+0.01⁴⁾

0.104+0.13⁴⁾

0.4+0.5⁴⁾

f/100 kHz*0.8 +

f/100 kHz*0.8⁴⁾

f/100 kHz*1.0 +

f/100 kHz*1.1⁴⁾

-

Power U*/ I_SENSOR

0.032+0.08

0.024+0.03

0.015+0.01

0.048+0.06

0.32+0.4

0.72+0.9

f/1 MHz*1.8 + f/1 MHz*1.5

Power U_SENSOR / I* 5 mA...5 A

0.032+0.09

0.024+0.03

0.015+0.01

0.048+0.06

0.32+0.4

0.72+0.9

f/1 MHz*1.4 +

f/1 MHz*1.8

-

Power U_SENSOR / I* 10 A...32 A

0.032+0.09²⁾

0.024+0.03⁴⁾

0.015+0.01⁴⁾

0.104+0.13⁴⁾

0.4+0.5⁴⁾

f/100 kHz*0.8 +

f/100 kHz*0.8⁴⁾

f/100 kHz*1.0 +

f/100 kHz*1.0⁴⁾

-

Power USENSOR / ISENSOR

0.032+0.08

0.024+0.03

0.015+0.01

0.048+0.06

0.32+0.4

0.64+0.8

f/1 MHz*1.1 + f/1 MHz*1.5

B channel

Accuracy

± (% of measured value + % of maximum peak value)

DC

0,05 Hz ... 45 Hz 65 Hz ... 1 kHz

45 Hz ... 65 Hz

1 kHz ... 5 kHz

5 kHz ... 20 kHz

20 kHz ... 100 kHz

100 kHz ... 500 kHz

Voltage U*

0.1+0.1

0.03+0.03

0.2+0.2

0.3+0.4

0.4+0.8

f/1 00 kHz*0.8 +

f/1 00 kHz*1.2

Current I* 5 mA...5 A

Current I_SENSOR

0.1+0.1

0.03+0.03

0.2+0.2

0.3+0.4

0.4+0.8

f/1 00 kHz*0.8 +

f/1 00 kHz*1.2

Current I* 10 A...32 A

0.1+0.1¹⁾

0.1+0.1³⁾

0.03+0.03³⁾

0.2+0.2³⁾

0.6+1.2³⁾

1.5+1.5³⁾

f/1 00 kHz*2.0 +

f/1 00 kHz*2.0³⁾

Power U*/ I* 5 mA...5 A

Power U*/ I_SENSOR

0.16+0.1

0.05+0.02

0.32+0.2

0.48+0.4

0.64+0.8

f/1 00 kHz*1.28 +

f/1 00 kHz*1.2

Power U*/ I* 10 A...32 A

0.16+0.1²⁾

0.16+0.1⁴⁾

0.05+0.02⁴⁾

0.32+0.2⁴⁾

0.72+0.8⁴⁾

1.52+1.15⁴⁾

f/1 00 kHz*2.24 +

f/1 00 kHz*1.6⁴⁾

C channel

Accuracy

± (% of measured value + % of maximum peak value)

DC

0,05 Hz ... 45 Hz 65 Hz ... 200 Hz

45 Hz ... 65 Hz

200 Hz ... 500 Hz

500 Hz ... 1 kHz

1 kHz ... 2 kHz

2 kHz ... 10 kHz

Voltage U*

0.1+0.1

0.02+0.05

0.02+0.02

0.05+0.05

0.2+0.1

1.0+0.5

f/1 kHz*1.0 +

f/1 kHz*1.0

Current I*

0.1+0.1¹⁾

0.02+0.05³⁾

0.02+0.02³⁾

0.05+0.05³⁾

0.2+0.1³⁾

1.0+0.5³⁾

f/1 kHz*1.0 +

f/1 kHz*1.0³⁾

Current I_SENSOR

0.1+0.1

0.02+0.05

0.02+0.02

0.05+0.05

0.2+0.1

1.0+0.5

f/1 kHz*1.0 +

f/1 kHz*1.0

Power

0.16+0.1²⁾

0.032+0.05⁴⁾

0.03+0.01⁴⁾

0.08+0.05⁴⁾

0.32+0.1⁴⁾

1.6+0.5⁴⁾

f/1 kHz*1.6 +

f/1 kHz*1.0⁴⁾

Accuracies valid for:

1. Sinusoidal voltages and currents

2. Ambient temperature (23±3) °C

3. Warm-up time 1 h

4. The maximum peak value for power is the product of the maximum peak value for voltage and the maximum peak value for current.

5. 0 ≤ |λ| ≤ 1 (power factor)

6. Current and voltage
10 % ... 110 % of nominal value

7. Adjustment carried out at 23 °C

8. Calibration interval 12 months

Other values

All other values are calculated from current, voltage and power. Accuracy resp. error limits are derived according to context (e.g. S = I * U, ΔS / S = ΔI / I + ΔU / U).

^{1) 2) 3) 4)} only valid in range 10 ... 32 A:

¹⁾ additional uncertainty ± 50μA/A²* I_trms2²⁾ additional uncertainty ± 50μA/A²* I_trms2* U_trms 3) additional uncertainty ± 30μA/A²* I_trms2 ⁴⁾ additional uncertainty ± 30μA/A²* I_trms2* U_trms

Voltage measuring ranges U*
Nominal value (V)	3		6			12.5				25			60		130		250			400				600			1000
Max. trms value (V)	3.3		6.6			13.8				27.5			66		136		270			440				660			1000
Max. peak value (V)	6		12			25				50			100		200		400			800				1600			3200
Overload protection	1000 V + 10 % permanently, 1500 V for 1 s
Input impedance												4.59 MΩ, 3 pF
Earth capacitance												< 90 pF
Current measuring ranges I*
Nominal value (A)	0.005	0.01			0.02		0.04		0.08		0.15			0.3	0.6	1.2			2.5		5		10		20			32
Max. trms value (A)	0.0055	0.011			0.022		0.044		0.088		0.165			0.33	0.66	1.32			2.75		5.5		11		22			32
Max. peak value (A)	0.014	0.028			0.056		0.112		0.224		0.469			0.938	1.875	3.75			7.5		15		30		60			120
Input impedance	ca. 2.2 Ω						ca. 600 mΩ							ca. 80 mΩ					ca. 20 mΩ						ca. 10 mΩ
Overload protection permanent (A)							LMG in operation 10 A														LMG in operation 32 A
Overload protection short-time (A)														150 A for 10 ms
Earth capacitance														< 90 pF
Sensor inputs USENSOR, ISENSOR
Nominal value (V)	0.03			0.06				0.12				0.25			0.5			1				2				4
Max. trms value (V)	0.033			0.066				0.132				0.275			0.55			1.1				2.2				4.4
Max. peak value (V)	0.0977			0.1953				0.3906				0.7813			1.563			3.125				6.25				12.5
Overload protection												100 V permanently, 250 V for 1 s
Input impedance												100 kΩ, 34 pF
Earth capacitance												< 90 pF
Isolation	All current and voltage inputs are isolated against each other, against remaining electronics and against earth. Max. 1000 V / CAT III resp. 600 V / CAT IV
Synchronization	Measurements are synchronized on the signal period. The period is determined based on „line“, „external“, u(t) or i(t), in combination with configurable filters. Therefore readings are very stable, especially with PWM controlled frequency converters and amplitude modulated electronic loads.
Scope function	Graphical display of sample values over time in two scopes with 8 signals each
Plot function	Two time (trend-) diagrams of max. 8 parameters, max. resolution 30 ms
External graphics interface (L6-OPT-DVI)	VGA/DVI interface for external screen output
Process signal interface (L6-OPT-PSI)	2 fast analog inputs (150 kS/s, 16 bit, BNC) 8 analog inputs (100 S/s, 16 bit, D-Sub:DE-09) 32 analog outputs (output per cycle, 14 bit, D-Sub: DA-15 & DB-25) 8 switching outputs (6 switches with 2 connections each and 2 switching outputs with common negative, D-Sub: DB-25) 8 switching inputs (150 kS / s, in two groups 4 inputs each with common ground, D-Sub: DB-25) Speed-/torque-/frequency inputs (150 kS/s, D-Sub: DA-15)
Star-delta conversion (L6-OPT-SDC)	Conversion of line voltages to phase voltages and computation of resulting active power
Harmonics at device level (L6-OPT-HRM)	Harmonics and interharmonics up to 2,000th order
Flicker (L6-OPT-FLK)	According to EN 61000-4-15
LMG Remote	LMG600 expansion software, basic module for remote configuration and operation via PC
L60-TEST-CE61K	LMG600 software for conformity tests according to EN61000 for harmonics and flicker

The complete technical data can be found in the manual, which is stored on your LMG600 in the valid version.

	Inverter measurements 1-phase Input 3-phase Output
	power measurement of 3-phase motors
	Efficiency measurement of power supplies
	Measuring of core losses

L60-CH-A	A-Channel for high-precision broadband measurements
	High-Precision Channel for power measurements with DualPath functionality, bandwidth DC-10 MHz best accuracy 0.015% + 0.01% Measuring inputs and ranges: 1. Voltage directly (V): 3/6/12,5/25/60/130/250/400/600/1000 Vtrms; 3200 Vpk 2. Voltage sensor input (mV): 30/60/120/250/500 (V): 1/2/4 Vtrms; 8 Vpk 3. Current directly (mA): 5/10/20/40/80/150/300/600 and (A): 1.2/2.5/5/10/20/32 Atrms; 120 Apk 4. Current sensor input (mV): 30/60/120/250/500 (V): 1/2/4 Vtrms; 12.5 Vpk
L60-CH-B	B-Channel for general purpose measurements
	Multi-purpose measurement channel with DualPath functionality, bandwidth DC - 500 kHz best accuracy 0.05% + 0.02% Measuring inputs and ranges 1. Voltage directly (V): 3/6/12.5/25/60/130/250/400/600/1000 Vtrms; 3200 Vpk 2. Current directly (mA): 5/10/20/40/80/150/300/600 and (A): 1.2/2.5/5/10/20/32 Atrms; 120 Apk 3. Current sensor input (mV): 30/60/120/250/500 (V): 1/2/4 Vtrms; 12.5 Vpk
L60-CH-C	C-Channel for high-precision 50/60 Hz measurements
	High-precision measurement channel for 50 Hz applications, bandwidth DC - 10 kHz, best accuracy 0.03% + 0.01%. Measuring inputs and ranges: 1. Voltage directly (V): 3/6/12,5/25/60/130/250/400/600/1000 Vtrms; 3200 Vpk 2. Current directly (mA): 5/10/20/40/80/150/300/600 and (A): 1.2/2.5/5/10/20/32 Atrms; 120 Apk 3. Current sensor input (mV): 30/60/120/250/500 (V): 1/2/4 Vtrms; 12.5 Vpk

L6-X-00-D	LMG600 manual in German
L6-X-00-E	LMG600 manual in English
L6-X-ADSE	Adaptor for LMG600 to connect sensors and current clamps
L6-X-HDL2	Handles for LMG610/40/70, 2 pcs. for front face, CNC milled and powder-coated
L6-X-HDL4	Handles for LMG670/LMG640, 4 pcs. for front face and rear side, CNC milled and powder-coated
L64-X-01	LMG640 19 inch rack mount kit
L6-ACC-SYNC-2	Sync cable for pair of LMG600
L6-ACC-SYNC-3	Sync cable for 3x LMG600
L6-ACC05	Transport case for LMG640/67x and accessories

1 to 4 Channel Power Analyzer

Product description

LMG640 - Power Analysis²

Features:

Features

DualPath

Flexibility

A/B/C-Channels

Plug ’n’ Measure

Custom Menu

Interfaces

Star-Delta

Calibration

Warranty

Harmonics

Process signals

Flexible Filter

Synchronization

Remote control

Continuity

Exact signal transit time

DualPath

Simultaneous measurement in two bandwidths thanks DualPath - no compromises, no doubt

Flexibility

The right channel combination for every application

A/B/C-Channels

For every application the right channel type:

Plug ’n’ Measure

Convenient commissioning with zero risk of misconfiguration

Custom Menu

The GUI you always wanted…

… in less than 20 minutes

Interfaces

Powerful interfaces

Star-Delta

Conversion from phase to phase in the phase voltages and determination of the active power

Calibration

Warranty

Harmonics

Process signals

Process Signal Interface (PSI)

Flexible Filter

Signal filter freely adjustable according to frequency, type and characteristics

Synchronization

Synchronize simultaneously on up to four different frequencies

Remote control

LMG Remote

Continuity

Complete data collection

Exact signal transit time

Exact measurements thanks to minimal runtime differences

Measurement Channels

Options

Applications

Inductive Components and Magnetic Cores

Switching Power Supplies

Aviation Compliance

Ultra-high-speed Machines

Frequency converter

Lighting Engineering

Application notes

Technical Specifications

Technical Data (Summary), valid for 0 ≤ λ ≤ 1

Downloads

Accessories