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NARDA LR-01 User Manual

Logger repeater
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Manufacturing Plant:
NARDA
Via Benessea, 29/B
Safety
17035 - Cisano sul Neva (SV)
Test
Tel.: +39 0182 58641
Solutions
Fax: +39 0182 586400
S.r.l. Socio Unico
User's Manual
LOGGER REPEATER
EQUIPMENT SERIAL NUMBER
You can find the Serial Number on the rear panel of the instrument.
Serial Number is in the form: 0000X00000.
The first four digits and the letter are the Serial Number prefix, the last five digits are
the Serial Number suffix. The prefix is the same for identical instruments, it changes
only when a configuration change is made to the instrument.
The suffix is different for each instrument.
Document LR01EN-30604-2.10 – Copyright © NARDA 2023
www.narda-sts.it
nardait.support@narda-sts.it
narda-sts@onlinepec.it
LR-01

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Summary of Contents for NARDA LR-01

  • Page 1 The first four digits and the letter are the Serial Number prefix, the last five digits are the Serial Number suffix. The prefix is the same for identical instruments, it changes only when a configuration change is made to the instrument. The suffix is different for each instrument. Document LR01EN-30604-2.10 – Copyright © NARDA 2023...
  • Page 2 NOTE: ® Names and Logo are registered trademarks of Narda Safety Test Solutions GmbH – Trade names are trademarks of the owners. If the instrument is used in any other way than as described in this User’s Manual, it may become unsafe.
  • Page 3 2.3 Working environment............... 2.4 Return for repair………............. 2.5 Instrument cleaning….............. 2.6 Installation of the LR-01………………………………………….. 2.7 LR-01 on, Led status, Manual Log Button and Buzzer..... 2.8 Power supply and battery recharging…………………....2.9 Install and run Narda Probes Manager software………………. 2.10 Logger …………………………………………………………….

  • Page 4: 10.10 Tt-01 Fiber Glass Telescopic Support

    7.3 LR01 Manager Main window……………………………… 7.3.1 Menu……………………………………………………..7.3.1.1 Settings…………………………………………………. 7.3.2 Technical data…………………………………………… 7.3.3 Live Measurements……………………………………… 7.3.4 Logger and Save measurements……………………… 7.3.5 Info ……………………………………………………….. 8 Using of LR-01 with WearOS (Smartwatch) Page 8.1 Introduction……………………………........ 8.2 Installation…………………………….………………………. 8.3. Operations…………………………………………………… 8.3.1 Live Measurements………………………………… 8.3.2 Technical data……………………………………….

  • Page 5: Table Of Contents

    10-5 10-7 LR01-8053 Adapter connectors ……………………………. 10-6 10-8 TR-02A Tripod ………………………………………………… 10-7 10-9 LR-01 with 8053 adapter and probe on the TR-02A……….. 10-8 10-10 TT-01 Fiber Glass Telescopic Support……………………… 10-9 10-11 AC/DC Power Supply and battery charger …………………. 10-10 10-12 USB Cable –...
  • Page 6 8059 Field Probes …………………………………………… 8053 Field Probes …………………………………………… LR-01 Indoor Area Monitor Field Probes …………………. Technical Specifications of 8059 Field Probes ……………. Technical Specifications of LR-01 and IAM Field Probes .. 1-23 Technical Specifications of 8053 Field Probes …………… 1-27 Led status……………………………….…………………….
  • Page 7 • To prevent the possible danger of electrocution, do not remove any covers, panels or guards installed on the device, and refer only to NARDA Service Centers if maintenance should be necessary; • To maintain adequate protection from fire hazards, replace fuses only with others of the same type and rating;...
  • Page 8 Ripetitore Registratore – Logger Repeater Descrizione Description Modello LR-01 Model è conforme ai requisiti essenziali delle seguenti Direttive: conforms with the essential requirements of the following Directives: Apparecchiature Radio Compatibiltà Elettromagnetica...
  • Page 9 1 – General information The following documents are included in this Manual: 1.1 Documentation • A questionnaire to be sent to NARDA together with the apparatus should service be required. • A checklist of the Accessories included in the shipment.
  • Page 10 EHP-2B-04 E and H-Field Sensor • TT-01 Fiber Glass Telescopic Support • TR-02A Tripod complete with joint • Shoulder Sling, Neck Belt for LR-01 (Safety lanyard ¼” thread) • Android, WearOS (Smartwatch) and iOS Utility LR01/IAM accessories supplied separately (on charge): 1.5 LR01/IAM •...

  • Page 11: 1.6 Main Specifications

    When not differently specified, the following specifications refers to an 1.6 Main specifications operating ambient temperature of 23°C and relative humidity of 50%. Table 1-1 Technical specifications 8053 and 8059 standards Probe compatibility Optical (RP-02), USB (USB(C)), WiFi (802.11 b/g/n), Bluetooth (5.0) Interfaces Optical fiber connection Serial Optical Interface 115200 Baud...

  • Page 12: Top Panel

    1.7 LR-01 panels Legend: 1. Robust bayonet connector 2. GPS antenna 3. Wireless antennas 4. Visual alarm 5. Manual log button 6. Vibration alarm Fig. 1-2 Top panel Legend: 1. ON/OFF button 2. Power ON LED 3. Manual log button 4.
  • Page 13 LR-01 can measure and log fields detected by many electric and magnetic 1.8 Field Probes field probes. Both the probes of the 8059 family and the probes of the 8053 family are compatible with the Logger Repeater, by means of the appropriate adapter. In addition, a series of probes, aimed at the use of indoor area monitors has been developed, specifically for LR-01.
  • Page 14 If the frequency of the signal to be measured is known, it is possible to apply an automatic flatness correction, and the LR-01 is also able to properly switch between linear and quadratic detection, as the selected standard requires, depending on the frequency. In other words, the field level evaluation becomes linear under 10 or 30 MHz, depending on the selected standard.
  • Page 15 The following list shows the 8053 probes: TABLE 1-3 8053 Field Probes Field Probes Frequency range Level range ELECTRIC FIELD PROBE EP-105 100 kHz - 1000 MHz 0.05 - 50 V/m ELECTRIC FIELD PROBE EP-300 100 kHz - 3 GHz 0.1 - 300 V/m ELECTRIC FIELD PROBE EP-330 100 kHz - 3 GHz...
  • Page 16 The following list shows the LR-01 specific probes, designed for indoor area monitor: TABLE 1-4 LR-01 Indoor Area Monitor Field Probes Field Probe Range of frequency Reading E: 500 kHz – 9.25 GHz E: 0.1 (0.5) – 1000 % ELECTRIC AND MAGNETIC FIELD SHAPED PROBE EHP-2B-05 H: 20 MHz –...

  • Page 17: Ep-1B-01 Probe

    TABLE 1-5 Technical Specifications of 8059 Field Probes ELECTRIC FIELD PROBE EP-1B-01 Frequency range 0.1 – 3000 MHz Reading range 0.2 – 200 V/m Overload 600 V/m Dynamic range > 60 dB Linearity ± 0.5 dB (0.5 to 100 V/m) @ 50 MHz Resolution 0.01 V/m Sensitivity...

  • Page 18: Ep-3B-01 Probe

    TRI-BAND ELECTRIC FIELD PROBE EP-3B-01 Wide band Low pass High pass Frequency range 0.1 – 3000 MHz 0.1 – 862 MHz 933 – 3000 MHz Reading range 0.2 – 200 V/m Overload 600 V/m Dynamic range > 60 dB ± 0.5 dB (0.5 to 100 V/m) Linearity ±...

  • Page 19: Hp-1B-01 Probe

    MAGNETIC FIELD PROBE HP-1B-01 Frequency range 10 Hz – 5 kHz Reading range 50 nT – 200 µT Overload > 1 mT Dynamic range > 72 dB Linearity ± 0.5 dB (200 nT to 100 uT) @ 50 Hz Resolution 1 nT Sensitivity 50 nT...

  • Page 20: Ep-4B-01 Probe

    QUAD-BAND ELECTRIC FIELD PROBE EP-4B-01 Wide band EGSM 900 Band pass EGSM 1800 Band pass UMTS Band pass Frequency range 0.1 – 3000 MHz 925 – 960 MHz 1805 – 1880 MHz 2110 – 2170 MHz 0.2 – 200 V/m 0.03 –...

  • Page 21: Ep-1B-03 Probe

    ELECTRIC FIELD PROBE EP-1B-03 Frequency range 0.1 – 7000 MHz Reading range 0.2 – 200 V/m Overload 600 V/m Dynamic range > 60 dB Linearity ± 0.5 dB (0.5 to 100 V/m) @ 50 MHz Resolution 0.01 V/m Sensitivity 0.2 V/m 3 MHz - 200 MHz +/-0.8 dB Flatness @ 20V/m 0.15 MHz - 3 GHz +/-1.5 dB...

  • Page 22: Ep-4B-02 Probe

    QUAD-BAND ELECTRIC FIELD PROBE EP-4B-02 Wide band EGSM 900 Band pass EGSM 1800 Band pass UMTS Band pass Frequency range 0.1 – 7000 MHz 925 – 960 MHz 1805 – 1880 MHz 2110 – 2170 MHz Level range 0.2 – 200 V/m 0.03 –...

  • Page 23: Ep-1B-04 Probe

    ELECTRIC FIELD PROBE EP-1B-04 Frequency range 10 Hz – 5 kHz Level range 5 V/m – 20 kV/m Overload > 30 kV/m Dynamic range > 72 dB Resolution 0.1 V/m Sensitivity 5 V/m Flatness @ 100 V/m 1 dB (typical 0,5 ) (40 Hz - 1 kHz) Anisotropy @ 100 V/m 0.5 dB @ 50 Hz...

  • Page 24: Ep-1B-05 Probe

    ELECTRIC FIELD PROBE EP-1B-05 Frequency range 0.3 MHz – 18 GHz Reading range 0.5 – 800 V/m Overload 1200 V/m Dynamic range > 64 dB Linearity ±0.5 dB (±0.3 typical) (1.2 V/m to 200 V/m) @ 200 MHz Resolution 0.01 V/m 0.5 V/m Sensitivity 1 MHz to 1 GHz ±1.5 dB...

  • Page 25: Ep-1B-06 Probe

    ELECTRIC FIELD PROBE EP-1B-06 Frequency range 0.3 MHz – 40 GHz Reading range 0.5 – 800 V/m Overload 1200 V/m Dynamic range > 64 dB Linearity ±0.5 dB (±0.3 typical) (1.2 V/m to 200 V/m) @ 200 MHz Resolution 0.01 V/m Sensitivity 0.5 V/m 1 MHz to 1 GHz ±1.5 dB...

  • Page 26: Ep-1B-08 Probe

    ELECTRIC FIELD PROBE EP-1B-08 0.1 MHz – 8 GHz Frequency range 0.2 – 200 V/m Reading range 600 V/m Overload > 60 dB Dynamic range ±0.5 dB (0.5 V/m to 100 V/m) @ 50 MHz Linearity 0.01 V/m Resolution 0.2 V/m Sensitivity 3 MHz - 200 MHz ±0.8 dB Flatness @ 20 V/m...

  • Page 27: Ehp-2B-01 Probe

    DUAL-BAND ELECTRIC AND MAGNETIC SHAPED FIELD PROBE EHP-2B-01 For ICNIRP 1998 and SC6 2015 * Electric Field Magnetic Field Occupational 0.5 – 9250 MHz ICNIRP 1998 General Public Frequency range 20 – 1000 MHz Controlled 3 – 9250 MHz SC6 2015 Uncontrolled Occupational / Controlled 0.1 –...

  • Page 28: Ehp-2B-02 Probe

    DUAL-BAND ELECTRIC AND MAGNETIC SHAPED FIELD PROBE EHP-2B-02 For ICNIRP 1998 and SC6 2015 * Electric Field Magnetic Field Occupational 0.5 MHz – 60 GHz ICNIRP 1998 General Public Frequency range 20 – 1000 MHz 3 MHz – 60 GHz Controlled SC6 2015 Uncontrolled...

  • Page 29: Ehp-2B-03 Probe

    DUAL-BAND ELECTRIC AND MAGNETIC SHAPED FIELD PROBE EHP-2B-03 For ICNIRP 2020 and FCC 96-326 * Electric Field Magnetic Field Occupational ICNIRP 2020 5 – 9250 MHz 1 – 1000 MHz General Public Frequency range 2 – 9250 MHz 2 – 1000 MHz Occupational FCC 96-326 1.34 –...

  • Page 30: Ehp-2B-04 Probe

    DUAL-BAND ELECTRIC AND MAGNETIC SHAPED FIELD PROBE EHP-2B-04 For ICNIRP 2020 and FCC 96-326 * Electric Field Magnetic Field Occupational ICNIRP 2020 5 MHz – 60 GHz 1 – 1000 MHz General Public Frequency range 2 – 1000 MHz Occupational 2 MHz –...

  • Page 31: Ehp-2B-05 Probe

    TABLE 1-6 Technical Specifications of LR-01 and IAM Indoor Area Monitor Field Probes DUAL-BAND ELECTRIC AND MAGNETIC SHAPED FIELD PROBE EHP-2B-05 For ICNIRP 1998 and SC6 2015 Electric Field Magnetic Field Occupational 0.5 – 9250 MHz ICNIRP 1998 General Public Frequency range 20 –...

  • Page 32: Ehp-2B-06 Probe

    DUAL-BAND ELECTRIC AND MAGNETIC SHAPED FIELD PROBE EHP-2B-06 For ICNIRP 1998 and SC6 2015 Electric Field Magnetic Field Occupational ICNIRP 1998 0.5 MHz – 60 GHz General Public Frequency range 20 – 1000 MHz Controlled SC6 2015 3 MHz – 60 GHz Uncontrolled Occupational / Controlled 0.1 –...

  • Page 33: Ehp-2B-07 Probe

    DUAL-BAND ELECTRIC AND MAGNETIC SHAPED FIELD PROBE EHP-2B-07 For ICNIRP 2020 and FCC 96-326* Electric Field Magnetic Field Occupational ICNIRP 2020 5 – 9250 MHz 1 – 1000 MHz General Public Frequency range Occupational 2 – 9250 MHz 2 – 1000 MHz FCC 96-326 General Pop.

  • Page 34: Ehp-2B-08 Probe

    DUAL-BAND ELECTRIC AND MAGNETIC SHAPED FIELD PROBE EHP-2B-08 For ICNIRP 2020 and FCC 96-326* Electric Field Magnetic Field Occupational ICNIRP 2020 5 MHz – 60 GHz 1 – 1000 MHz General Public Frequency range 2 MHz – 60 GHz 2 – 1000 MHz Occupational FCC 96-326 General Pop.

  • Page 35: Technical Specifications Of 8053 Field Probes

    TABLE 1-7 Technical Specifications of 8053 Field Probes ELECTRIC FIELD PROBE EP-330 Frequency range 100 kHz - 3 GHz Level range 0.3 - 300 V/m Overload > 600 V/m Dynamic range > 60 dB Resolution 0.01 V/m Sensitivity 0.3 V/m ±...
  • Page 36 Typical response for signal GSM, 1 frequency channel, 1 time slot Correction factor EP330 2.00 1.50 1.00 0.50 0.00 Erms [V/m] Erms [V/m] Edisplay [V/m] Correction factor 0.98 1.02 1.91 1.05 2.82 1.06 3.70 1.08 4.58 1.09 5.40 1.11 6.17 1.13 6.96 1.15...
  • Page 37 EP330 - Typical amplitude response for two CW signal of same level. (Fc=1MHz) Erms/Edisplay d f= 1kHz df = 10kHz df = 100kHz df = 1MHz 1.600 1.400 1.200 1.000 0.800 0.600 0.400 Erms[V/m] 1000 Fig. 1-22 EP-330 probe General information 1-29...

  • Page 38: Ep-33M Probe

    ELECTRIC FIELD PROBE EP-33M Frequency range 700 MHz - 3 GHz Level range 0.3 - 300 V/m Overload > 600 V/m Dynamic range > 60 dB Resolution 0.01 V/m Sensitivity 0.3 V/m ± 1 dB Absolute error @ 930 MHz 20 V/m ±...
  • Page 39 MAGNETIC FIELD PROBE HP-102 Frequency range 30 - 1000 MHz Level range 0.01 - 20 A/m Overload > 40 A/m Dynamic range > 60 dB Resolution 1 mA/m Sensitivity 0.01 A/m ± 1 dB Absolute error @ 50 MHz 2 A/m ±...
  • Page 40 ELECTRIC FIELD PROBE EP-105 Frequency range 100 kHz - 1000 MHz Level range 0.05 - 50 V/m Overload > 100 V/m Dynamic range > 60 dB Resolution 0.01 V/m Sensitivity 0.05 V/m ± 0.8 dB Absolute error @ 50 MHz 6 V/m ±...
  • Page 41 MAGNETIC FIELD PROBE HP-032 Frequency range 0.1 - 30 MHz Level range 0.01 - 20 A/m Overload > 40 A/m Dynamic range > 60 dB Resolution 1 mA/m Sensitivity 0.01 A/m ± 1 dB Absolute error @ 1 MHz 2 A/m ±...
  • Page 42 ELECTRIC FIELD PROBE EP-301 Frequency range 100 kHz - 3 GHz Level range 1 – 1000 V/m Overload > 1200 V/m Dynamic range > 60 dB Resolution 0.1 V/m Sensitivity 1 V/m ± 0.8 dB Absolute error @ 50 MHz 20 V/m ±...
  • Page 43 ELECTRIC FIELD PROBE EP-183 Frequency range 1 MHz - 18 GHz Level range 0.8 - 800 V/m Overload > 1200 V/m Dynamic range > 60 dB Resolution 0.01 V/m Sensitivity 0.8 V/m ± 0.8 dB Absolute error @ 200 MHz 6 V/m ±...
  • Page 44 ELECTRIC FIELD PROBE EP-408 Frequency range 1 MHz - 40 GHz Level range 0.8 - 800 V/m Overload > 1000 V/m Dynamic range > 60 dB Resolution 0.01 V/m Sensitivity 0.8 V/m ± 0.8 dB Absolute error @ 200 MHz 6 V/m ±...

  • Page 45: Ep-44M Probe

    ELECTRIC FIELD PROBE EP-44M Frequency range 100 kHz - 800 MHz Level range 0.25 - 250 V/m Overload > 500 V/m Dynamic range > 60 dB Resolution 0.01 V/m Sensitivity 0.25 V/m ± 0.8 dB Absolute error @ 50 MHz and 6 V/m Flatness ±...
  • Page 46 MAGNETIC FIELD PROBE HP-050 Frequency range 10 Hz – 5 kHz Level range 10 nT – 40 µT Overload 400 µT Dynamic range > 72 dB Resolution 1 nT Sensitivity 10 nT Absolute error @ 50 Hz 200 nT 25 °C ±...
  • Page 47 ELECTRIC FIELD PROBE EP-300 Frequency range 100 kHz - 3 GHz Level range 0.1 - 300 V/m Overload > 600 V/m Dynamic range > 66 dB (typical >70 dB) Resolution 0.01 V/m Sensitivity 0.15 V/m (typical >0.1V/m) ± 0.8 dB Absolute error @ 50 MHz 20 V/m ±...
  • Page 48 ELECTRIC FIELD PROBE EP-33A Frequency range 925 MHz - 960 MHz Level range 0.03 – 30 V/m Overload > 120 V/m Dynamic range > 60 dB Resolution 0.001 V/m Sensitivity 0.03 V/m ± 1 dB Absolute error @ 942.5 MHz and 2 V/m Flatness (925 - 960 MHz) + 0.2 dB / -1.8 dB OFF Band attenuation respect to 942.5 MHz...

  • Page 49: Ep-33A Probe

    Typical frequency response for EP33A probe [dB] -5,0 -10,0 -15,0 872,5 907,5 942,5 977,5 1012,5 1030 [MHz] Typical amplitude response for a GSM, 1 frequency channel,1 time slot Correction factor EP33A 2,00 1,50 1,00 0,50 0,00 0,01 Erms [V/m] This test is carried out with a signal currently used in laboratory for maximize the reading error to make a comparison of the performances of the probe with a common base.
  • Page 50 ELECTRIC FIELD PROBE EP-33B Frequency range 1805 MHz – 1880 MHz Level range 0.03 – 30 V/m Overload > 120 V/m Dynamic range > 60 dB Resolution 0.001 V/m Sensitivity 0.03 V/m ± 1 dB Absolute error @ 1842.5 MHz and 2 V/m Flatness (1805 - 1880 MHz) + 0.2 dB / -1.8 dB OFF Band attenuation respect to 1842.5 MHz...

  • Page 51: Ep-33B Probe

    T ypi c al fr eq uen cy r es pons e for E P 33B probe - 10 1730.0 1767.5 1805.0 1842.5 1880.0 1917.5 1955.0 Fig. 1-34 EP-33B probe General information 1-43...
  • Page 52 ELECTRIC FIELD PROBE EP-33C Frequency range 2110 MHz – 2170 MHz Level range 0.03 – 30 V/m Overload > 120 V/m Dynamic range > 60 dB Resolution 0.001 V/m Sensitivity 0.03 V/m ± 1 dB Absolute error @ 2140 MHz and 2 V/m Flatness (2110 - 2170 MHz) + 0.2 dB / -1.8 dB OFF Band attenuation respect to 2140 MHz...

  • Page 53: Ep-33C Probe

    T ypi c al fr eq uen cy r es pons e for E P 33C probe [d B ] - 10 2065.0 2080.0 2095.0 2110.0 2125.0 2140.0 2155.0 2170.0 2185.0 2200.0 2215.0 [M H z] Fig. 1-35 EP-33C probe General information 1-45...
  • Page 54 MAGNETIC FIELD PROBE HP-051 Frequency range 10 Hz – 5 KHz Level range 50 nT – 200 µT Dynamic range > 72 dB Overload 400 µT Resolution 1 nT Sensitivity 50 nT ± 0.4 dB Absolute error @ 50 Hz - 3 µT - 25°C ±...
  • Page 55 ELECTRIC FIELD PROBE EP-201 Frequency range 60 MHz – 12 GHz Level range 3 – 500 V/m Overload > 1000 V/m Dynamic range > 45 dB Resolution 0.1 V/m Sensitivity 8 V/m (instantaneous measurement with filter 10 Hz) 3 V/m (RMS or AVG 30 sec with filter 10 Hz) Flatness @ 40 V/m ±...
  • Page 56 Fig. 1-37 EP-201 probe LR-01 is able to identify all probe models whether they are plugged before or after switching on the unit. A more accurate measurement with EP333 and EP201 probes is achieved setting the filter to 10Hz. 1-48...
  • Page 57 ELECTRIC FIELD PROBE EP-333 TRUE RMS Frequency range 0.1 – 3600 MHz Level range 0.15 – 300 V/m Overload 600 V/m Dynamic range > 66 dB Resolution 0.01 V/m Sensitivity 0.15 V/m Flatness 0.3 MHz – 3500 MHz 3.0 dB 3.5 MHz –...
  • Page 58 75 V/m on the entire frequency range of the probe. A more accurate measurement with EP333 and EP201 probes is achieved setting the filter to 10Hz. LR-01 is able to identify all probe models whether they are plugged before or after switching on the unit. Fig. 1-38 EP-333 probe...
  • Page 59 ELECTRIC FIELD PROBE EP-645 (0.1) 0.3 – 6500 MHz Frequency range 0.35 – 450 V/m Level range Overload 900 V/m > 62 dB Dynamic range 0.01 V/m Resolution Sensitivity 0.35 V/m 3 MHz – 10 MHz 1.5 dB Flatness 10 MHz – 1000 MHz 1.0 dB 1000 MHz –...
  • Page 60 ELECTRIC FIELD PROBE EP-745 0.1 – 7000 MHz Frequency range Level range 0.35 – 450 V/m 900 V/m Overload > 62 dB Dynamic range Resolution 0.01 V/m 0.35 V/m Sensitivity 3 MHz – 10 MHz 1.5 dB Flatness 10 MHz – 1000 MHz 1.0 dB 1000 MHz –...
  • Page 61 < 95% relative 2.4 Return for repair When the repeater needs to be returned to NARDA for repair, please complete the questionnaire appended to this User’s Manual, filling in all the data that will be useful for the service you have requested.
  • Page 62 2.6 Installation of the Turn off the LR-01, connect the proper adapter to the upper round multipole connector and insert the field probe into the probe connector on the adapter, LR-01 taking care that the key (red dot in case of 8053 family probes) is aligned.
  • Page 63 RF module signals (BLE and Wi-Fi), LR-01 has been specially designed so that detections are taken when these devices are not radiating. Just after running the program, the desired instrument must be chosen from the list.
  • Page 64 • Select, for example, the LR01 row and click Connect The assigned COM port will be matched automatically . • It is also possible to run the Auto search function, which will look for any connected device and will list them in the drop-down menu. Installation and use...

  • Page 65: Led Status

    2.7 LR-01 on, Led status, Turn on LR-01 by pushing the red POWER button for a short while. The Data LED will show the following sequence, while the instrument Manual log button and performs a diagnostic test to check everything is working properly: briefly Buzzer flash green, then goes off, then lights up red and then becomes orange;...

  • Page 66: Buzzer Status

    A manual button allows the user to start logging or measurement acquisition or reboot the instrument. Table 2-2 Manual log button status Manual log button Description Logger start with deletion of the previously saved Logs (after Pressing for more than 5 s setting the Logger by means of the AQ_ command).
  • Page 67 Ensure that the batteries are fully charged before using the Logger Repeater for longest battery operation time. The battery status is reported by the Narda Probes Manager software and displayed in %. It shows the residual autonomy during measurements and...
  • Page 68 Probes Manager sw chapter 3. Run the Probes Manager software and the LR-01 led turns on low blinking Green (probe inserted) or Red (probe not inserted) light that means the correct communication with PC is established. For further information, see chapter 4.
  • Page 69 LR-01 is specially designed as a Logger to automatically collect 2.10 Logger measurements. It is capable of performing this function stand-alone. The Logger settings (rate and method) can be entered via the PC connection. The storing rate can be set between 1 s minimum and 900 s maximum.

  • Page 70: Typical Immunity Test Irradiation Configuration

    2.11 LR-01 Applications Fig. 2-2 Typical Immunity test irradiation configuration Fig. 2-3 LR-01 in a multi-probe configuration 2-10 Installation and use...

  • Page 71: Example Of Calibration Of A Magnetic Field Probe

    For further information about the use of LR-01 Logger Repeater with the Narda Porbes Manager software, please refer to the chapter 4 of this Manual. When measuring fields from transmitting aerials, it is important to place the probe with the supporting handle in line with the polarity of the aerial.
  • Page 72 This page has been left blank intentionally 2-12 Installation and use...
  • Page 73 • 2 GB RAM • 10 GB free space on hard disk; • Windows Operating system™ Win7 and Win10 To obtain firmware or program updates for LR-01, please contact your NARDA distributor or download it directly from the NARDA Web site http://www.narda-sts.it Document LR01EN-30604-2.10 - ...
  • Page 74 3.3 Installation To install the Narda Probes Manager on PC from the supplied Software Media as follows: Do not connect the LR-01 to the PC until the installation is completed. Browse the Software Media in Computer Resources and double click on the Narda Probes Manager Setup.exe file to start the installation...
  • Page 75 The installation can be aborted by clicking on Cancel: The installation folder must be specified. Click Next to confirm the default folder or Change to modify. Probes Manager software installation...
  • Page 76 Click Next to proceed installing. Probes Manager software installation...
  • Page 77 The installing status is displayed then: Click Finish to complete and exit the installer. Probes Manager software installation...
  • Page 78 The folder Narda Probes Manager is created under Programs\Narda Safety with Probes Manager (see Chapter 4) and LR-01 Update firmware (see Chapter 5) The Probes_Manager icon will be available on desktop. Probes Manager software installation...
  • Page 79 This section provides the information necessary to use the Narda Probes 4.1 Introduction Manager software with the LR-01 programmable Logger Repeater. To obtain firmware or program updates for LR-01, please contact your NARDA distributor or download it directly from the NARDA Web site http://www.narda-sts.it Before starting Narda Probes Manager, it is recommended to limit the applications running on your computer.
  • Page 80 This window is displayed first. The user can quickly change the desired communication channel by clicking onto the Comm port drop-down menu. When the menu is opened, the communication port selector appears. It allows the user to choose among the available ports. Both when the USB wired connection or the USB-OC optical link is used, the device appears as a COMn port.
  • Page 81 When needed, the User can tick the Remote On using FO box to switch on the LR-01 directly from the PC. This can be very convenient for turning the instrument on and off from remote, when it is located far away or in places that are not easily accessible (i.e.
  • Page 82 Click Connect to confirm. Then, if the device is correctly found the connection progress bar is displayed. Then, the main window is displayed, showing the live measurements together with all other related information. Probes Manager operating instructions...
  • Page 83 If the device was not available at the selected port, the Looking for devices indication appears. The following message appears when LR-01 is not connected or the communication is not established: Select NO to quit the Narda Probes Manager. Select YES to retry establishing the communication (check the LR-01 correct installation before).
  • Page 84 Once connected the main window is displayed: 4.2 Main window contents Commands description: 1. Title bar 2. Menu: Settings, Preference and ? tags ribbon 3. Measurements and parameters (main window) 4. Correction frequency setting in MHz 5. Reading rate in milliseconds (ms) 6.
  • Page 85 The software release shown here. 4.2.1 Title bar The control buttons allow to minimize to icon, enlarge/restore the main window and exit the program: When minimizing the main window the information is displayed in the Windows application bar at the bottom of screen. The total field measurement remains displayed on desktop meanwhile (for more information see par.
  • Page 86 The measurements displayed in the main window are: 4.2.2 Main window displayed - field values as x - y - z or total (see par. “XYZ / TOT”). measurements Mode X - Y – Z Mode Total (TOT) - Measuring unit the electric or magnetic field measuring unit depend on the probe model connected;...
  • Page 87 In the upper right part of the screen, some technical data are shown. 4.2.2.1 Displayed technical data They are: - Freq: followed by the frequency chosen for correction, or OFF when disabled. - Avg: followed by the number of measurements for averaging calculation. - Filter: followed by the label related to the selected filter.
  • Page 88 This setting in MHz recalls the corresponding frequency correction factor 4.2.3 Frequency stored in the LR-01 memory. It allows an extremely precise measurement correction setting of the field level at the selected frequency. The setting displayed at the first run is the default; the last setting will be displayed then.
  • Page 89 The following messages will appear when entering frequencies out of the probe frequency range: If the frequency entered for correction is lower than the minimum admissible, the value will be set at the minimum available and the following message will be shown: If the frequency entered for correction is higher than the maximum admissible, the value will be set at the maximum available and the following message will be shown:...
  • Page 90 It shows the time interval (in milliseconds) between subsequent readings. 4.2.4 Reading Rate Setting resolution of 1 ms (0.001 s). setting Press the enter key to enter the set frequency value. The setting displayed at the first run is the default; the last setting will be displayed then.
  • Page 91 4.2.5 XYZ / TOT Button for selecting the x - y – z (XYZ) or Total mode (TOT). Max. display resolution: 0.001 V/m or A/m; the unit depends on the probe model. Click on the XYZ button to toggle to Total mode. Probes Manager operating instructions 4-13...
  • Page 92 If the field value of the probe is outside the nominal level range, the following messages are displayed: Ovr : the field level is higher than 110% of the probe nominal maximum level (for example, 880 V/m for EP-183). ! : the field level is between 100% and 110% of the probe nominal maximum level (for example, from 800 to 880 V/m for EP-183).
  • Page 93 Click the Save softbutton in the main window to activate the Measurements 4.2.6 Save Log. measurements When the software starts, the function Measurements Log is disabled Every time the button Save is selected, a message pops up telling the Log file will be generated.
  • Page 94 When the file is saved in TXT format and the table is opened, a huge amount of data are available If the field value measured is outside the nominal level range, the following messages are displayed with Ovr, Low . See the previous paragraph for further information.
  • Page 95 (Probe model): between brackets is reported the probe connected to the LR-01 Time: hour, minute, second of the start of the working session. Time: hour, minute, second, thousandths of a second of the measurement...
  • Page 96 4.2.7 Plot The PLOT function allows to show the field measured during the test in an intuitive graphical way; the plot represents the level versus time in seconds. Once selected the button PLOT, the graph will appear: In Plot window it is possible to set the desired scales for both Time (x) and Level (y).
  • Page 97 Use the menu Settings in the main window to customize the plot appearance: - The character used as data separator when required by the table form (Text file separator); - Different color combinations of the background, grid, labels and traces are listed under Colors.
  • Page 98 The new settings can be saved with Save. Otherwise, press Default button to completely restore the initial aspect. The Display section allows to set the desired color of the main window. 4-20 Probes Manager operating instructions...
  • Page 99 Once modified the appearance of the graph, enter back again the Plot function to graph the analysis. In this case, it is done with Time/Div set to 1 s and default colors. At any time, the graph can be paused or terminated by clicking the Hold or Exit button respectively.
  • Page 100 In pause mode, the field values detected during that interval can still be saved if the Measurements Log function was active. The Save soft button allows to save the graph as an image. It is possible to add a text comment and, for this purpose, after clicking Save, the following box appears: The file name and path can be specified as desired and the default is automatically shown.
  • Page 101 During the work session, the graph can be paused, resumed, the scales can be modified as desired, and the plot can be saved as an image. Any single axis and Total trace can be shown or hidden at will. It is possible to scroll the track, along the time, by moving the cursor When the test is over, the graph can be terminated clicking Exit button.
  • Page 102 Press EXIT to end the program. The current settings are saved and will be recalled at the next start. Message: Press YES to close the software (the LR-01 will remain on). Press NO to continue using the software 4-24 Probes Manager operating instructions...
  • Page 103 4.2.10.1 Settings Settings options: 4.2.10.1.1 Filter - Filter: the LR-01 internal A/D converter feature digital filters to improve resolution and sensitivity, as well to reducing interferences. The filters can be selected according to the application requirements: from the faster (F1) to the slower (F4).
  • Page 104 4.2.10.1.2 Video Average - Video Average: setting of the number (1, 4, 16, 32 or 64) of readings to calculate the arithmetic average (AVG). When setting Average = 1, the readings are not averaged and the current measurements are displayed. In the example, the average value of the last 16 field readings will be displayed.
  • Page 105 4.2.10.1.3 Calibrations Calibrations window allows to: - set to zero the internal Altimeter reference, - calibrate the internal Compass for more accuracy, - set the internal Clock with the Time or Date of the PC. The altimeter can be useful in applications where the height of measurements are relevant, such as, for example, along antennas masts.
  • Page 106 - Click Set to save and confirm with OK - Click on OFF and the button toggles to ON for enabling the function. Confirm with OK and the LR-01 will attempts to connect to the wireless network. Once the link has been successfully established, the cable can be disconnected.
  • Page 107 4.2.10.2 Preference Functions of the Settings menu: - Settings  Display: Different color combinations of the background and 4.2.10.2.1 Settings text are listed under Colors.: The choice is made by selecting the corresponding to be changed and then using the Color Palette window. The new settings can be saved with Save.
  • Page 108 This window can be moved anywhere on the desktop, keeping its final position even at the next minimizing of the main window. To close this window, go on the tray, click the Narda icon and click the X at the upper right corner of the minimized window.
  • Page 109 Contents: 4.2.10.3 Info button - Info: Software release; Probe model; Repeater model and firmware release; Repeater Serial Number; Latest Probe calibration. - About: Manufacturer information. Probes Manager operating instructions 4-31...
  • Page 110 These measurements are kept even when the device is switched off, thanks to the large internal flash memory. Narda Probes Manager software allows downloading these measurements in a simple and reliable way. When entered in the Logger Settings page, the User can enable or disable all alarms and warnings available.
  • Page 111 - Probe failure: to enable/disable probe failure and recovery notification. - Battery level: to enable/disable battery level notification triggered by exceeding and returning within a factory preset threshold. - Humidity: to enable/disable relative humidity warning triggered by exceeding a factory preset threshold. - USB cable: to enable/disable the notification of the presence of an USB connection.
  • Page 112 When this function is active, the logger triggers only if an Alarm or Warning occurs. Set button is used to save all logger parameters in the LR-01. Its main use is if the User wants to start the logger manually with a long press of the side button.
  • Page 113 This section provides all the information required for firmware updating. The Update Firmware Program is available after Narda Probes Manager package installation. Turn off the LR-01 and connect it to a free USB port of the PC. 5.2 To run the update software Click the icon on desktop.
  • Page 114 The firmware components can be updated by this application. The Firmware is the main meter internal program and it is automatically stored within the Narda Probes Manager directory during software installation (see Chapter 4). To start the process simply select Update Firmware button, and wait (less than one minute) until the automatic transfer is completed.
  • Page 115 At the end, a message informs if the update has been successfully performed. Turn the LR-01 OFF (it could seem to be already OFF but it is not) and turn it ON again. The LR-01 is now updated with the new version of the internal firmware.
  • Page 116 This page has been intentionally left blank Firmware Update...
  • Page 117 Open the Windows Control Panel. The following procedure shows how to remove the driver in Windows 10 environment. It may be different depending on the operating system in use. Double click “Programs and Features”. Document LR01EN-30604-2.10 -  NARDA 2023 Uninstalling driver and software...

  • Page 118: Uninstalling Usb-Oc

    From the application list select “PL-2303 USB-to-Serial”, click “Uninstall” and follow the instructions. Fig. 6-1 Uninstalling USB-OC 6.2 Uninstall Narda Press EXIT to quit Narda Probes Manager, disconnect the LR01 from the Probes Manager PC and uninstall the software. In Win7 click Windows , NardaProbesManager, then Uninstall Probes_Manager and follow the instructions.
  • Page 119 Make sure turning on Bluetooth wireless on LR01 and the device. To active the Bluetooth communication on the LR01 the user must connect the meter to Narda Probe Manager software and enable the BLE function (see §4.2.10.1.4 Communications at Page 4-28).
  • Page 120 These are the basic operations to follow to work with the LR01 Manager. All additional information and explanations can be found on chapter 4. Commands description: 1. Menu 2. Technical data 3. Unit’s identifier and Probe type 4. Measurements window 5. Logger button 6. Info LR-01 Manager operating instructions...
  • Page 121 Settings window allows to: - Set the internal digital Filter. - Set the LR-01 internal clock with the Date and Time of the PC. - Set to zero the internal Altimeter reference. - Calibrate the internal Compass Calibration for more accuracy.
  • Page 122 - Measuring unit the electric or magnetic field measuring unit depend on the probe model connected. These are the basic operations to follow to work with the LR01 Manager. All additional information and explanations can be found on chapter 4 . LR-01 Manager operating instructions...
  • Page 123 .txt data log file and the picture. On Android device only, when the working session is stopped the data and, if taken, the picture are saved in the Download directory. .TXT file will created with specific name: LR01_Record_yyyymmddhhmmss.txt. LR-01 Manager operating instructions...
  • Page 124 - Identification name (Demounit) - Firmware version and released data (FW 1.00 03/23) - LR-01 Serial Number (000ZE20901) - Probe connected to the LR-01 (Probe EP333) - Measurement unit (Unit: V/m) - Measurements GPS coordinates (GPS: 44.07….., 8.15…..) - Working session date in dd/mm/yyyy format (Date: 28/03/2023)
  • Page 125 Narda Probe Manager software and enable the BLE function (see §4.2.10.1.4 Communications at Page 4-28). Turn on LR-01 and wait some seconds while the instrument performs a diagnostic test (see §2.7). After that it begins flashing green, to indicate the instrument is ready to communicate.
  • Page 126 8.3 Operations These are the basic operations to follow to work with the LR01 Manager. All additional information and explanations can be found on chapter 4 8.3.1 Live Measurements Once the link has been successfully established, the Main window is displayed showing the live measurements together with software release.
  • Page 127 - Hum: followed by the percentage of relative humidity. - Alt: followed by the relative altitude in meters. - DateTime: Date and time set on LR-01 - Last Calibration date: Latest probe calibration - Compass: followed by the compass heading in degrees and cardinal directions.
  • Page 128 - Set to zero the internal Altimeter reference - Calibrate the internal Compass Calibration for more accuracy - Recall the Frequency correction factor (in Hz) stored in the LR-01 memory or OFF when disabled - Sampling time: Set the time interval (in milliseconds) between...
  • Page 129 PC and by means of user’s own PC software applications. The communication between the host and the LR-01 can be in wired USB, in optic USB (USB-OC) or wireless (Wi-Fi or Bluetooth). Serial communication protocol is the following: •...
  • Page 130 At power ON, LR-01 is automatically set to listen to both the USB and the optic port for incoming commands. The optic port will be always available for communicating with the unit. User’s own software can ask for measurement data when desired or can...

  • Page 131: Query Commands

    9.2 List of commands Table 9-1 Query COMMANDs Syntax Function Requests the unit’s address. ?ADR Requests alarm threshold. ?ALR Requests relative altitude. ?ALT Requests logger settings. ?AQ_ Requests the averaging mode setting. ?AVG Requests battery voltage. ?BAT Requests optic port speed (baud rate). ?BDR Requests the state of the BLE connection.

  • Page 132: Setting Commands

    Table 9-2 Setting COMMANDs Syntax Function Sets unit’s address. SADRa Sets alarm threshold. SALRs Resets the reference altitude. SALT Sets the logger parameters. SAQ_x;t SAVGl;r Selects averaging mode. Sets baud rate. SBDR b SBLEx Switches Bluetooth ON or OFF. Sets the RTC date. SCLDd.m.y SCLT h.m.s Sets the RTC time.
  • Page 133 ?ALT The reply provides the altitude in meters relative to the reference position which is acquired when the LR-01 is switched on or when the SALT command is sent or when a new Log begins. The adopted formula is: alt=(2.0*1006.0)/(7.0*9.81)*Tk*LN(ref_Press/cur_Press)
  • Page 134 This query command #LR?AVG* requests the current averaging mode. ?AVG The reply is as follows: AVG=L;R where: L is the storing rate in minutes R shows the acquisition mode setting: A= AVG; R=RMS; I=Instantaneous Example of reply: AVG=15.00;A which means that the unit is averaging over 15 minutes and the average is of the AVG type.
  • Page 135 This query command #LR?CLK* requests the date and time to the internal RTC. ?CLK The reply provides the requested information formatted as: CLK=HH.mm.ss;DD.MM.YY • HH: hours • mm: minutes • ss: seconds • DD: day • MM: month • YY: year (last two digits) Example of reply: CLK=20.02.09;19.05.22 This query command #LR?CPS* requests the compass and accelerometer readings.
  • Page 136 ?GPS This query command #LR?GPS* requests the latest RMC and GGA NMEA phrases (NMEA 0183 ver 3.01) detected by the internal GPS module. RMC NMEA strings are reported in full, starting with $GPRMC and/or $GNRMC, and ending with the checksum followed by CR LF. GGA NMEA strings are reported in full, starting with $GPGGA and/or $GNGGA, and ending with the checksum followed by CR LF.
  • Page 137 Example of reply: IDN=Cisano;LR01;A0.0 10/21;000WE20501 which identifies the unit named Cisano, model LR-01, with firmware version A0.0 released on October 2021. Its serial number is 000WE20501. This query command #LR?KFR* requests the setting for the correction depending on the ?KFR frequency.
  • Page 138 This query command #LR?LFA* requests the latest average field value. ?LFA[S] The reply provides the value (or values) with current unit, followed by the averaging period in minutes (the same as per AVG command). When a passive probe is installed, the command provides the field levels of the three axes, followed by the total value.
  • Page 139 This query command #LR?MES* requests the instantaneous (not averaged) field level. ?MES The reply is the elementary value for each band, in the format: Three-band probe: • MES=W;L;H;V/m; where: • W is the wideband probe field level; • is the low-pass probe field level (e.g. < 862 MHz) •...
  • Page 140 This query command #LR?MESS* activates the continued issuing of the instantaneous (not ?MESS averaged) field level. The reply is the elementary value for each band, like ?MES command, but with enabling for the continuous data transfer as soon as they are available, in the format: This command can be useful, for example, to be able to record separately all the elementary data used by the instrument.
  • Page 141 ?MESR[v] This query command #LR?MESR* activates the continued issuing of the instantaneous (not averaged) field level with position (GPS) and other sensors (compass, thermometer, hygrometer, barometer, accelerometer) information. The reply is the elementary value for each band, like ?MES command, plus GPS (and sensors) information, with enabling for the continuous data transfer as soon as they are available, in the following format.
  • Page 142 Following is the standard NMEA GPRMC and/or GNRMC string that reports the information: • Time (UTC) • Navigation receiver warning A = OK, V = warning • Latitude (deg. min North/South) • Longitude (deg. min East/West) • Speed over ground (Knots) •...
  • Page 143 This query command #LR?MSK* requests the alarms Mask. ?MSK The reply provides a string with every armed alarm, with the format: MSK=AWUVPTCawvp SERIAL ALRTRG where the meaning of the symbols is similar to the ?STA command, as follows: • A = Field Level exceeded Alarm; •...
  • Page 144 ?PRB This query command #LR?PRB* requests information of the connected probe. The reply provides probe model, latest calibration date, measurement unit, divider in the following format: • Three-band probe: PRB=Name:Dd.Mm.Yy; Unit:Divider:Range:MinLevel:MinFreq:MaxFreq:CorrFreqUnit • Four-band probe: PRB=Name:Dd.Mm.Yy; Unit:Divider:Range:MinLevelWide:MinFreq:MaxFreq:CorrFreqUnit:4:MinLevelSubBand • Single-band probe: PRB=Name:Dd.Mm.Yy; Unit:Divider:Range:MinLevel:MinFreq:MaxFreq:CorrFreqUnit:S •...
  • Page 145 This query command #LR?SNS* requests data from the environmental sensor. ?SNS The reply, in the format SNS=T;H;P provides: • T: Temperature, in Celsius degrees (°C) • H: Relative Humidity in percentage (%) • P: Atmospgeric Pressure (hPa) Example of reply: SNS=23.9;38.8;1013.6 This query command #LR?SST* requests the level of the signal for the wireless channel.
  • Page 146 This query command #LR?STM* requests the active alarms condition. ?STM The reply provides a string showing the active alarms (they must be activated by SMSK command) as following: STA=AWUVPTCawvp • W: Warning level exceeded; • A= ALARM threshold exceeded; • w= end of Warning situation;...
  • Page 147 This query command #LR?VST* requests the power supply status. ?VST[V] The reply provides the code as follows: • 0 for battery supply • 1 for external supply connected and battery charge completed • 2 for external supply connected and battery under charging Example of reply: VST=1 which indicates the external 5V supply is connected and the battery is fully charged.
  • Page 148 This query command #LR?WMEi* requests the instantaneous % level related to the ?WMEifv desired standard. This is only for EHP-2B-xx probes. I=1: Reference Standard (same reading as per ?MES command) I=2: Standard 2 I=3: Standard 3 I=4: Standard 4 The order of the standards is: - for -01 and -02 models: ICNIRP98OCC, ICNIRP98GP, SC6CONTR, SC6UNCONTR.
  • Page 149 Adding the “v” character, at the end of the command, so that it becomes ?WMEifv, it is possible to include in the reply string the additional values of heading (degrees), acceleration (g), temperature (° C) and humidity (%) Example of reply: WME=46.47;1930.61;%;*;3.79V; $GPRMC,163230.000,A,4341.1574,N,01047.9386,E,0.01,25.87,190822,,,D*54 ;$GPGGA,163305.992,,,,,0,3,,,M,,M,,*4B ;Heading: 209 (SW);...
  • Page 150 These commands are intended for making settings on the LR-01. 9.4 Setting commands TABLE 8-2 Setting commands SADRa This setting command sets the specific address for the unit. It represents the additional prefix that will be accepted and recognized by that specific unit only, in the same way as the default prefix "LR"...
  • Page 151 This setting command sets the Logger parameters. SAQ_x;t Argument x represents the storing rate, in seconds, 1 s minimum and 900 s maximum. If x is set to -1, the Logger is activated but the trigger event becomes the pressing of the button or, if enabled (SMSK L), the exceeding of the alarm threshold.
  • Page 152 This setting command sets the averaging mode. SAVGl;r • l is the time length in minutes, between 0.25 and 30 with 0.25 minutes resolution up to 1 minute; 1 minute up to 15 minutes and always 30 minutes over 15. •...
  • Page 153 This setting command sets the date of the Real Time Clock. SCLDd.m.y Each parameter must be two digits, as following: • d is the day (01 to 31) • m is the month (01 to 12) • y is the year (00 to 99) The reply is the same as per ?CLK command.
  • Page 154 This setting command selects the wireless communication channel active at power on, as SDCMc follows: • c=0 to disable all wireless channels at power on; • c=1 to enable Wi-Fi module at power on; • c=2 to enable BLE module at power on. If DCM=1 or DCM=2, the corresponding wireless communication channel will be kept active for 60 seconds.
  • Page 155 This setting command switches immediately off the internal GPS module. SGOF The reply GOF=OK indicates that the command has been granted. Example: #LRSGOF* SGOOFF This setting command turns immediately off the unit. Note: since the instrument goes suddenly off after having received the command, no reply is returned.
  • Page 156 This setting command sets the frequency for flatness correction. SKFR f Argument f represents the frequency in Hz at which the correction is to be applied, or 0 whenever it is desired to disable the correction. In the case of an Electric and Magnetic probe, both correction frequencies are set to the indicated value.
  • Page 157 This setting command sets the Alarms and Warnings mask. SMSKm The mask must contain the mnemonic symbols that represent the individual alarms as shown in the following table. They can be written in any order. • W = Warning level exceeded; •...
  • Page 158 This setting command restores the default configuration. SRST The command resets the main parameters as follows: • All Alarms masked; • Averaging period of 6 minutes; • Running average cleared; • Averaging type: RMS; The reply RST=OK indicates that the command has been granted. Example: #LRSRST* restarts the unit.
  • Page 159 This setting command switches the Wi-Fi module to the desired mode. SWFIx The argument x can be as following: • x=ON: turns on the module and starts the connection procedure; • x=OFF: closes any connection and turns off the module, including BLE; •...
  • Page 160 9.5 Log file Header The binary file begins with a 128 bytes header, structured as follows: • first 8 bytes are always 0x4C 0x4F 0x47 0x5F 0x53 0x20 0x0D 0x0A [0-7] • 24 bytes reporting the serial number of the unit (if it is shorter, a zero-padding is performed) [8-31] •...

  • Page 161: Probe

    9.5.1 Log file data All figures in this document are BIG ENDIANNESS. 9.5.1.1 Passive Probes Structure description Tot_avg Tot_Peak Reserved Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7 Byte 8 Battery Temp. Alarm PERTS MISC DateTime Byte 10...

  • Page 162: Probe

    9.5.1.3 4-Bands Active Probes Structure description Wide_avg Wide_Peak Reserved Byte 1 Byte 2 Byte 3 Byte 4 Byte 5 Byte 6 Byte 7 Byte 8 Battery Temperature Alarm PERTS MISC DateTime Byte 10 Byte 11 Byte 12 Byte 13 Byte 14 Byte 15 Byte 16 Byte 9...
  • Page 163 9.5.2 Field data Field data are represented as 16 bit. Such a figure should be considered as a big-endian unsigned 15 bit integer multiplied by the typical probe divider (see dedicated ?PRB command). In the particular case in which the figure is equal to 0xFFFF then the value must be considered invalid (LR01 was not able to get a measure) and all the data (all 32 bytes) are meaningless.
  • Page 164 The 16 bit figure named MISC is shown as follows: D07 D06 D05 D04 D03 D02 D01 D00 D07 D06 D05 D04 D03 D02 D01 D00 MISC AVGPerio Byte AVGPeriod Min MONTHS d_Dec 13/14 4 bit unsigned integer 7 bit unsigned integer 2 bit uint This figure ( MISC ) should be considered as four different data as follows: •...
  • Page 165 9.5.3 Additional GPS Structure description Validity Acceleration X Acceleration Y Byte 33 Byte 34 Byte 35 Byte 36 Byte 37 Byte 38 Byte 39 Byte 40 Acceleration Z Speed Reserved Byte 41 Byte 42 Byte 43 Byte 44 Byte 45 Byte 46 Byte 47 Byte 48...
  • Page 166 9.5.3.1 Position Information The 16 bit figure named Latitude int is shown as follows: Byte Degree Minute 49/50 The figure named Latitude int is made of 4 fields and represents the integer part of the GPS Latitude. • Degree is a 8 bit unsigned integer which indicates the degree of latitude. •...
  • Page 167 9.5.4 Battery Log File Header The binary file begins with a 32 bytes header, structured as follows: • The starting 8 bytes are always 0x4C 0x42 0x41 0x54 0x5F 0x53 0x20 0x20 [0-7] • 24 bytes reporting the serial number of the unit (if it is shorter, a zero- padding is performed) [8-31] Data The Log file contains, from the 32nd byte, the records consisting of 8 bytes...
  • Page 168 This page has been left blank intentionally 9-40 Command protocol...
  • Page 169 Battery Charger) • Humidity < 95% relative When the Accessories need to be returned to NARDA for repair, please 10.4 Return for repair complete the questionnaire appended to this User’s Manual, filling in all the data that will be useful for the service you have requested.

  • Page 170: Usb-Oc Adapters

    USB-OC Optical USB Converter 10.6 USB-OC is an standard accessory of the LR-01 programmable Optical 10.6.1 Introduction Repeater. It converts the signals of some of the system’s accessories, which are only connected via fiber optic, into USB-compatible signals. It, therefore, makes...
  • Page 171 Repeater, paying attention to the position key and tightening the bayonet joint. The adapter is self powered directly by the LR-01 and it shows a very low consumption. This means no maintenance is needed. Then connect the desired field probe.

  • Page 172: Lr01-8059 Adapter Connectors

    Table 10-2 Technical specifications of the LR01-8059 Adapter 64 mm Length 59 g Weight 8 pin round with key Probe connector Probe connector Key: Connector for all AMB-8059 Probes models LR-01 connector Key: Connector to LR-01 input Fig. 10-4 LR01-8059 Adapter connectors 10-4 Accessories...
  • Page 173 Repeater, paying attention to the position key and tightening the bayonet joint. The adapter is self powered directly by the LR-01 and it shows a very low consumption. This means no maintenance is needed. Then connect the desired field probe.
  • Page 174 Table 10-3 Technical specifications of the LR-01-8053 Adapter 74 mm Length 80 g Weight Probe connector 12 pin round with key Probe side panel Connector for all 8053 Probes models LR-01 side panel Connector to LR-01 input Fig. 10-7 LR-01-8053 Adapter connectors...

  • Page 175: Tr-02A Tripod

    TR-02A Tripod 10.9 TR-02A is an Optional Accessory of the LR-01 Programmable Optical 10.9.1 Introduction Repeater. allows LR-01 easily supported during field measurements. Each of these instruments has a securing screw, usually placed on the bottom part of its container, that enables it to be easily and quickly put into place through the 8053-SN swivel supplied with the tripod.
  • Page 176 • Threaded insert ¼ “ The adjustable swivel makes mounting and fastening the instrument easy as well as changing the angle in any directions via the locking knob. Fig. 10-9 LR-01 with 8053 adapter and probe on the TR-02A 10-8 Accessories...

  • Page 177: Technical Specifications Of The Tt-01

    TT-01 is an Optional Accessory of the LR-01 Programmable Logger 10.10.1 Introduction Repeater. It allows LR-01 Repeater to be easily supported during field measurements. This device, on the top part of its container, has a screw to fix the relative apparatus.

  • Page 178: Usb Cable - Usb(A)/Usb(C)

    Wall plug regulated switchmode AC/DC power supply is an standard accessory of the LR-01 Programmable Logger Repeater. It is provided with the USB(A)/USB(C) cable to supply the LR-01 Logger Repeater and for charging the internal battery. This is a Class II / Double insulated device for indoor use only.
  • Page 179 10.12 Equipment Strap - adjustable and Comfortable shoulder sling, neck belt is an Optional Accessory of the LR-01 Programmable Logger Repeater. It is provided to carry the Logger Repeater in a comfortable way. The strap is equipped with a standard 1/4 " threaded bolt that screws into the bottom of the meter.

  • Page 180: Technical Specifications Of The Shoulder Sling

    Table 10-8 Technical specifications of the Shoulder Sling Threaded bolt ¼ “ standard Color: black Max Length > 2 kg Load capacity Detail of the standard 1/4 " threaded bolt 10-12 Accessories...
  • Page 181 LR01-IAM Indoor Area Monitor kit 10.13 LR-01 Logger Repeater can be easily configured as an Area Monitor using 10.13.1 Introduction special kit (LR01/IAM). It is a compact, flexible, modern solution to to equip a room with a continuous monitoring system, allowing the adoption of EHP-2B-05, EHP- 2B-06, EHP-2B-07 and EHP-2B-08 probe.
  • Page 182 10.13.2 Description The round shaped base encloses an interface circuit that makes the repeated USB port available, leaving room enough to connect an optic fiber and press the button. It adds also a RJ45 Ethernet (with provision for PoE) and a programmable User’s Port, as well as a buzzer to increase the range of the sound signal.
  • Page 183 10.13.3 Installation The LR01-IAM optional accessory is an easy to install kit to transform the LR01 Logger Repeater in a field monitoring station; follow the instructions below: - Assembly the Wall support bracket to the LR01-IAM Interface with 2 pcs. socket head cup screws M4x20mm and washer using Allen key 3mm - Fix the complete LR01-IAM on the site to be monitored.
  • Page 184 - Turn off the LR-01 and plug it into the USB-C connector located on the top of the LR01-IAM interface. Fix the meter to the base plate with the provided screws 1/4”x5/8 - Connect the EHP-2B-05 or EHP-2B-06 or EHP-2B-07 or EHP-2B-08 probe to the LR01 upper round multipole connector.
  • Page 185 - The four oval shaped holes allow the user to fasten the cables to the wall bracket using 2 pcs plastic straps (not provided). - Switch the unit on by pushing the button for a short while or directly from the software PC (see chapter 4).
  • Page 186 The optional Power Over Ethernet, such as TL-POE150S or equivalent 10.13.3.1 Use with Power products is available. It delivers power, data and network connection over Over Ethernet the same cable to the LR01-IAM Indoor Area Monitor throught the Ethernet (optional) port available on the bottom of the baseplate (Ethernet cable optional).
  • Page 187 The LR01-IAM option is equipped with: 10.13.4 LR01-IAM Ports • USB-C connector for supply and communication; • RJ45 connector for Ethernet LAN with PoE if necessary; • RP02 Optic fiber • DB-15 (HD-15) connector for the Programmable User’s Port. Fig. 10-18 Programmable User’s Port HD-15 female connector pinout 1 OUT2 –...
  • Page 188 WearOS (Smartwatch) 10.14 The optional WearOS (Smartwatch) is a portable and compact device worn 10.14.1 Introduction on the wrist and works with LR01 by Bluetooth connection allowing keeping your hands free and staying at a safe distance from the potentially dangerous field.
  • Page 189 Then, the unit is turned off. When the unit does not receive any command for 30 minutes, and the Logger is not enabled, it sends the string: ***No ACTIVITY*** switching off Then, the unit is turned off. Document LR01EN-30604-2.10 -  NARDA 2023 Service 11-1...
  • Page 190 11.2 Initial diagnostic results during the boot sequence. The ASCII text is self-explained. The following is an example where an Electric and Magnetic probe is connected to the LR-01. #OR$OPTFRK* LR01: FW A1.9 06/22, L A1.8 06/22, W A1.0 Sensing Flash memories...
  • Page 191 Here is another example of the initial diagnostic text, with a single band passive probe connected to the LR-01. #OR$OPTFRK* LR01: FW A1.7 05/22, L A1.6 05/22, W A1.0 Sensing Flash memories 1 found 1 Flash Memory sensed SNS=26.8;49.8;703.2 [Cel.Deg., %, hPa] Battery:3.86V...
  • Page 192 This page has been left blank intentionally 11-4 Service...
  • Page 193 Moreover, we are continuously improving our quality, but we know this is a never ending process. We would be glad if our present efforts are pleasing you. Should one of your pieces of NARDA equipment need servicing you can help us serve you more effectively filling out this card and enclosing it with the product.
  • Page 194 Suggerimenti / Commenti / Note: Suggestions / Comments / Note:...

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