SRg-ARREST™ Pyranometer Surge Protector

SRg-Arrest is a multi-purpose power and RS-485 galvanic isolator and powered repeater optimized for in-field pyranometer installations requiring long cable runs, or when RS-485 isolation and galvanic isolation for power and signal are required.

NOTE: SRg-Arrest is ONLY intended for use with digital (RS-485) capable pyranometers. Multiple pyranometers can share the same home-run cable through a single SRg-Arrest device, provided power capacity of the SPD is not exceeded. The cable shields ARE NOT CONNECTED internally with the SRg-Arrest SPD. It is recommended to ground the home-run cable shield wire at the DAS end of the system. For long (Case B), or extended (Case C), cable run applications, it is recommended to electrically isolate the pyranometer from the mounting structure with PID disc (sold separately).

SKU: Provides in-line pyranometer surge protection. Recommended for use in areas with high lightning activity or with digital pyranometer cables over 10 m (32.8 ft). Category: Tags: ,

Description

Specifications

Dimensions (inches)

6.5” (L) x 4.0” (W) x 1.13” (D), including mounting flanges

Cabling (inches) Input Cable M12-M x 23.0”, Output Cable M12-F x 196.0”
Grounding Details

Attach included 2m #12 green earth conductor to solid earth

Voltage Rating

9-36 VDC Input, 24VDC +/-2% output

Power Rating 500 mW max quiescent power, 1A Max out @ 24 VDC
Enclosure

IP67 rated (potted UV resistant polycarbonate)

Supported Devices

Hukseflux SR30-D1, SR30-M2-D1, SR15-D1, SR05-D1A3 models

M12 Connector Pinout

Standard Hukseflux 5-Pin M12 connector pinout

Cable Attachment M12 connector A-Coded, for rapid in-line install on existing systems
Surge Protection

Level 4 (4kV), Semiconductor, Bourns® TBU® Devices, and Arc Tubes

Power Isolation

3kV input to output

Communications

RS-485, Modbus™ up to 115200 bps, isolated repeater built-in

Overview

The requirement to install digital pyranometers at the end of long cable runs within the array area with installation dependent ground impedance provides an ideal environment for ground potential rise (GPR) and transient voltage events that can cause pyranometer damage. The failure of a pyranometer causes loss of data and expenses through re-calibration and field rework. Conventional surge arrestors are not up to the challenge, due to the need for both power and signal to be carried on the same cable. We share preliminary results for a fully-isolated Surge Protection Device (SPD) for protecting Digital pyranometers.

Conventional RS-485 Surge Arrestors limit surges through data lines. They provide no protection for power lines, or protection against GPR. Using this style of device on communication lines between inverters or other equipment with vigorous local ground bonding is effective against common surges. However, they are not effective at protecting far-apart points that need to share a common ground and lack vigorous ground bonding. Pyranometers are generally mounted in the array, connected via long, small gauge cables, operating at low voltage DC with power supply ground with the data logger ground. Due to the installation-dependent ground impedance between the data logger and pyranometer, high voltage transients caused by lightning or grid switching events can cause sudden high voltages to appear across the pyranometer cable. These can cause RS-485 errors at best, or equipment damage due to uncontrolled voltage excursions on pyranometer data and power lines. To address these concerns, the SPD includes a fully isolated DC to DC power conditioner, a communications repeater, and an integral set of conventional surge arrestor elements on both “field” and “instrument” sides. This is effective against GPR, as the grounds on both sides of the SPD can move independently of each other with no current flow through the device.

 

METHODS:

1. Lightning induced instrument damage has been increasing from a minor nuisance to an measurable O&M cost as fields grow larger.
2. Existing surge protection equipment is not ideal for pyranometer protection under harsh field conditions.
3. A new device, currently under test, explores if full isolation in a sacrificial device poses a good solution for keeping instruments operating.

 

RESULTS:

• Preliminary testing of (10) prototype units have resulted in the failure of (2) SPD units with no pyranometer damage.
• The root cause of the damage to the SPDs is well understood, and a more robust design is forthcoming.
• The SPD Device works for either end of span, or center of span installation.
• The SPD’s power isolator converts 9-30 Volts DC to 24 VDC for the Pyranometer.
• The SPD breaks the path for fault current by isolation of RS485 In to RS485 Out and Power In to Power Out.
• The SPD is not for Analog Output Pyranometers
• The SPD is field-installable in just few minutes.