ZA-1000FS SF6 Gas Monitor System | Globeinstrument

ZA-1000FS SF6 Gas Monitor System

The monitoring system consists of two parts: ZA1000J control unit and TGAS-1013 sensing unit.

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ZA-1000FS SF6 Gas Monitor systems can detect leaks and hypoxia, and real-time display field of SF6 and O2 information for the operator to analyze. According to the site, alarm or automatic start ventilation equipment to protect workers health. The monitoring system consists of two parts: ZA1000J control unit and TGAS-1013 sensing unit.
SF6 gas leakage alarm system based on dual wavelength non-dispersive infrared spectroscopy (NDIR) technology principle, sensitive, accurate and rapid detection of small leaks SF6 in air, and the gas concentration data is uploaded to the host system via RS485 bus for real-time display; The oxygen sensor for detecting the oxygen content in the air, more on-site gas detection to provide security.


  • Measuring the temperature and humidity, SF6 content and oxygen content detection and display.
  • RS485 bus topology to achieve detection for multiple monitoring points, displays, alarm.
  • Wide range of operating power supply design 100-240VAC, anti-surge and lightning function.
  • Using the remote control, operability stronger, more convenient.
  • Products using OLED display, wide viewing angle, high contrast, high brightness, fast response.
  • ZA1000J compact shape, installation and removal more flexible.
  • Two relay outputs.
  • Optional features components include: TGAS-1013 probe, sound and light alarm, fan interaction, the user may need, flexible combination


Parameters Characteristics
Detectable gas Sulfur hexafluoride, oxygen, poisonous and harmful gases
Communication Interface RS485 bus.ZigBee wireless .Relay switch signal,4 ~ 20mA four kinds of output mode output
Insulation Resistance ≥1000MΩ
Measurement range Refer to lectotype table for details
Sampling method Diffusion
Working environment Temperature: -30℃ ~ 60℃Pressure: 950~1050hPahumidity: 10 ~ 90% RH (non-condensing)
Input voltage 24VDC (12VDC~24VDC)
Rated Power 3W
Display 6 * 2 LCD
Dimensions 142 mm X100 mm X58mm
Weight 350g

Lectotype Table(part gas)

Model Range Accuracy
SF6 NDIR 0-1500ppm ±2%F.S.
O2 Fluorescence quenching 0~25% ±2%F.S.
CO–1 Electrochemical 0-500ppm ±5%F.S.
CO–2 Electrochemical 0-1000ppm ±5%F.S.
H2S Electrochemical 0-100ppm ±5%F.S.
SO2 Electrochemical 0-20ppm ±5%F.S.
H2–1 Electrochemical 0~4%LEL ±2%F.S.
H2–2 Electrochemical 0-1000ppm ±5%F.S.



The ZA1000J  Monitor Host
Display:color displayed: Blue OLED screen
Analog input:  1~8 ways, two-wire, 4~20mA transmitter (max 16 channels)
Voltage power consumption: 24V≤0.48W
Connection method: 2-core shielded cable
Analog output: 1~8 roads, two-wire, 4~20mA transmitter
Out impedance: ≤750ohm
Connection methods: 3-conductor shielded cable
Contact form: Normally open
Output mode: 1~4 branch channel alarm, 1 master channel alarm
Relay contact capacity: 1A, 30V DC or 1A, 250V AC
Alarm memory: 2000 pieces of alarm messages
Working voltage: 220V AC~230V AC, 50~60Hz,Power
Installation way: Wall hanging 130mm * 65mm * 12.9mm (L*W*H)
Weight: About 2 kg

SF6 infrared sensor adopts the principle of infrared absorption spectrometry to detect and analysis the SF6 gas. Infrared absorption spectrometry, which is called infrared spectrophotometry, means analyzing the substances quantitatively and qualitatively according to the characteristic that the substances absorb the infrared electromagnetic radiation selectively. As shown in figure 1:


Measurement principle of oxygen sensor:
The oxygen sensor mainly detects the concentration of oxygen through the electrochemical principle. Oxygen sensor usually consists of anode, cathode and electrolyte. As shown in figure 2:


When measured gas reaches the working electrode through the pore at the top, it is reduced at the working electrode and releases hydroxyl ions:
O2+2H2O+4e- = 4OH-
Through the electrolyte, these hydroxyl ions reach the anode (Pb), where the oxidation reaction occurs and generate the corresponding metallic oxides.
2Pb + 4OH- = 2PbO + 2H2O +4e-
The reactions above shall generate current. And the strength of the current depends on the reaction speed of oxygen. The potential difference is measured through an external resistor, and then the concentration of oxygen is detected accurately.

The block diagram of SF6 gas monitoring system:

TGas-1013-connection TGas-1013-connection2 TGas-1013-wireless-connect-s

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