Modbus Pyranometer

sun [e] Modbus PYRANOMETER

The sun [e] Modbus offers maximum accuracy and maximum data availability: With its new ventilation and heating technology, the sun [e] Modbus outperforms all pyranometers that are equipped with conventional ventilation systems. sun [e] Modbus is the ideal instrument for use in monitoring the performance of PV systems and in meteorological networks. It measures the solar radiation received from a flat surface in W / m 2 from a viewing angle of 180 °.

Sun [e] modbus pyranometer features

  • heated for best data availability
  • new technology outperforms conventional pyranometer ventilation
  • The standard con fi guration conforms to the requirements for class A PV monitoring systems of IEC 61724-1: 2017
  •  
  • professional meteorological applications
  • Building automation
  • Photovoltaic systems
  • Industrial meteorology

16131.5-Modbus PYRANOMETER

The pyranometers of the 16131.5 series are high-precision digital solar radiation sensors that meet the requirements of “First Class” according to the WMO guidelines and “Spectrally Flat Class B” according to ISO 9060: 2018. 

The model 00.16131.501030 is equipped with an on-board heater and thus meets the requirements for class B PV monitoring systems of the IEC 61724-1: 2017 standard.

The 16131.5 measures the solar radiation received from a flat surface in W / m 2 from a viewing angle of 180 °. Various digital and analog outputs are available for easy integration.

16131.5 modbus pyranometer features

  • highest measurement accuracy in the “First Class” category
  • improved response time
  • with integrated heating, version 00.16131.501030 meets the requirements of IEC 61724-1 Class B
  • professional meteorological applications
  • Building automation
  • Photovoltaic systems
  • Industrial meteorology

met [LOG] with met [APP] · data logger

met [LOG] with met [APP] data logger

The data logger met [LOG] and the browser app met [APP] bring your climate data quickly and easily to your network (LAN). For the uncomplicated commissioning of the serial LAMBRECHT meteo sensors, the met [LOG] has an auto-configuration via plug & play.

 

met [APP]

The browser app in the met [LOG] for easy visualization of the current climate data in your network. And platform-independent: on your laptop, tablet or smartphone.

Ser [LOG] · data logger

Ser [LOG] data logger

The Ser [LOG] system family gives you the greatest possible freedom for individual adjustments to your measuring tasks: expandability through modular structure, high flexibility through a large number of configuration options and many options through state-of-the-art communication interfaces.

16103-Modbus Pyranometer

MEETS THE REQUIREMENTS…

ISO 9060 “Second Class”. The pyranometer 16103-Modbus is ideal for measurements of solar radiation in meteorological networks and PV monitoring systems. It measures the solar radiation received from a flat surface, in W / m 2 , from an angle of 180 ° The 16103-Modbus uses a thermopile sensor with a black coated surface, a dome and an anodized aluminum body with a visible level.

16103 modbus pyranometer features

  • ISO 9060 “Second Class”
  • with Modbus via RS485 and analog output 0-1 V
  • easy assembly and leveling
  • ideal for PV system monitoring
  • professional meteorological applications
  • Building automation
  • Photovoltaic systems
  • Industrial meteorology

met [LOG] with met [APP] · data logger

met [LOG] with met [APP] data logger

The data logger met [LOG] and the browser app met [APP] bring your climate data quickly and easily to your network (LAN). For the uncomplicated commissioning of the serial LAMBRECHT meteo sensors, the met [LOG] has an auto-configuration via plug & play.

 

met [APP]

The browser app in the met [LOG] for easy visualization of the current climate data in your network. And platform-independent: on your laptop, tablet or smartphone.

Ser [LOG] · data logger

Ser [LOG] data logger

The Ser [LOG] system family gives you the greatest possible freedom for individual adjustments to your measuring tasks: expandability through modular structure, high flexibility through a large number of configuration options and many options through state-of-the-art communication interfaces.

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