INSTALLATION GUIDE Solar1000 Solar Monitoring Station Preliminary: C o p y r i g h t © 2 0 12 C a m p b e l l S c i e n t i f i c , I n c .
Warranty “PRODUCTS MANUFACTURED BY CAMPBELL SCIENTIFIC, INC. are warranted by Campbell Scientific, Inc. (“Campbell”) to be free from defects in materials and workmanship under normal use and service for twelve (12) months from date of shipment unless otherwise specified on the corresponding Campbell invoice. Batteries, fine-wire thermocouples, desiccant, and other consumables have no warranty.
Assistance Products may not be returned without prior authorization. The following contact information is for US and International customers residing in countries served by Campbell Scientific, Inc. directly. Affiliate companies handle repairs for customers within their territories. Please visit www.campbellsci.com to determine which Campbell Scientific company serves your country. To obtain a Returned Materials Authorization (RMA), contact CAMPBELL SCIENTIFIC, INC., phone (435) 227-2342.
About the Solar1000 Manual This manual is a compilation of the instruction manuals for the CM106 tripod, UT10 tower, HMP60 probe, 034B windset, TE525 rain gage, LP02 pyranometer, and CMP-series pyranometers. This document contains only the sections of the original manuals that are pertinent to the Solar1000 system (complete manuals are available at www.campbellsci.com/manuals/ or from Campbell Scientific’s ResourceDVD).
1. CM106 Tripod 1.1. General The CM106 is a general purpose tripod that can be used for mounting sensors, solar panels, antennas, and instrument enclosures. The CM106 is constructed from galvanized steel, with individually adjustable legs that allow installation over uneven terrain. Height of the mast is 7 ft (2.1 m), or 10 ft (3 m) with the mast extension. The CM106 includes lightning and grounding rods, grounding cables, UV resistant cable ties, and stakes for securing the tripod feet to the ground.
CM106 Tripod 1.2. Specifications Measurement Height Upper Mast Retracted: 7 ft (2.1 m) Upper Mast Extended: 10 ft (3 m) Vertical Load Limit: 100 lb (45 kg) Mast Outer Diameter Main Lower Mast: Retractable Upper: 1.90 in. (48 mm) 1.74 in. (44 mm) Base Diameter: 9.3 ft (2.8 m) Leveling Adjustment: Slide collars on each leg, adjust individually Leg Base: 4 in. by 5 in. with four 0.62 in. holes for stakes Portability: Collapsible to 8 in.
CM106 Tripod 1.4 Tripod Components Figure 1.4-1 shows the tripod components. The tripod base is packaged with the mast, ground rod, lightning rod and (6) stakes. The ground rod clamp, lightning rod, cable ties, and grounding wires are enclosed in a bag. The optional guy kit is packaged separately. (6) Stakes (12) Cable Ties Mast Mast Extension Base Lightning Rod and Clamp Grounding Wires Ground Rod and Clamp FIGURE 1.4-1.
CM106 Tripod 1.5. Tripod Installation 1.5.1 Tripod Base WARNING Tripod installation near power lines is dangerous. The minimum safe recommended distance from overhead power lines is 2 times the height of the tripod and mast combined. Call Blue Stakes to locate buried utilities prior to installation. The tripod base has three legs, which are individually adjustable, that allow the tripod to be installed over non-level terrain. Prepare the area where the tripod will be installed.
CM106 Tripod mount to one of the three leg mount positions on the tripod, facing the desired direction. The tripod is typically plumbed after the mast has been installed, as described in Section 1.5.2. 1.5.1.2 Mounting on an Incline Loosen the T-knob and extend each leg until the pin engages in a hole (depress the tab to disengage the pin from a hole). With the legs extended, orient the tripod so that one leg points downhill and the other two legs point uphill.
CM106 Tripod 1.5.2 Mast The CM106 includes a mast extension that can be fully extended for a 10 ft (3m) height, or partially extended for a 7 ft (2.1 m) height. Remove the bolts in the extension, align the holes in the insert with holes in the mast, and install the four bolts previously removed. Extension for 10 ft (3 m) height Extension for 7 ft (2.1 m) height Mast FIGURE 1.5-3.
CM106 Tripod Mast (6) Bolts Tab FIGURE 1.5-4. Mast Attachment to Tripod Base Loosen the nine bolts shown in Figure 1.5-4. Slide the mast into the tripod base, making sure that it extends below the lower bolts and rests on the tab. Tighten the six bolts to secure the mast. Plumb the tripod by adjusting the northeast and south facing legs. With a level on the East side of the mast, adjust the Northeast leg for plumb. With the level on the South side of the mast, adjust the South leg for plumb.
CM106 Tripod 1.5.3 Installing the Optional Guy Kit PN 27117 CM106 Guy Kit can be ordered separately for areas that experience high wind speeds (Section 1.2). Install the guy brackets to the mast as shown in Figure 1.5-5. Attach the three guy wires to the guy collar and slide the collar over the mast so that the collar butts against the brackets. Guy Collar Guy Wire Guy Bracket FIGURE 1.5-5. Guy Collar On the end of each guy line is a case and hardware to attach to the turnbuckles.
CM106 Tripod Case Turnbuckle Wedge Phillips Screw FIGURE 1.5-6.
CM106 Tripod 1.5.4 Staking the Tripod Feet Six stakes are provided for securing the tripod feet to the ground. Drive two stakes through holes in each foot at an angle as shown in Figure 1.5-7. Stakes may not be adequate depending on soil structure, maximum wind speeds experienced at the site, mast height, or wind load from the instrumentation. For questionable situations, additional stakes (PN 17049) or even concrete footings for the tripod feet and guy anchors should be considered. FIGURE 1.5-7.
CM106 Tripod 1.5.5 Tripod Grounding Place the clamp over the ground rod and drive the rod (close to the center of the tripod) using a sledge hammer or fence post driver. Strip 1/2” inch of insulation from both ends of the black 4 AWG ground wire. Insert one end of the ground wire between the clamp and ground rod and tighten the bolt on the clamp. Attach the other end of the ground wire to the lug on the tripod base as shown in Figure 1.5-8.
CM106 Tripod Strip 1/2” of insulation from the ends of the green 12 AWG wire. Attach one end of the wire to the tripod ground lug, and the other end to the enclosure ground lug as shown in Figure 1.5-9. Mount the lightning rod and clamp to the tripod mast with pointed tip up, and notch at bottom, as shown in Figure 1.5-9. Lightning Rod Clamp FIGURE 1.5-9.
CM106 Tripod 1.5.6 Crossarm Attachment Attach the CM202 (2 ft, 0.6m), CM204 (4 ft, 1.2m), or CM206 (6 ft, 1.8m) crossarm to the tripod mast as shown in Figure 1.5-10. For wind sensors, the crossarm should be approximately 103 inches above the ground for a 3m mounting height, or 64 inches for a 2m mounting height. Typically the crossarm is oriented East/West for wind sensors, North/South for pyranometers. CM200 Series Crossarm Tripod Mast FIGURE 1.5-10. CM204 Crossarm 1.5.
CM106 Tripod Install the U-bolts, flat washers, lock washers, and nuts. Tighten the nuts until the lock washers are compressed. Route the 14 AWG wire from the grounding lug on the bottom side of the enclosure to the grounding lug on the base of the tripod (Figure 1.5-8). Strip 1/2” of insulation from each end of the wire. Insert wire ends into the grounding lugs and tighten. U-Bolt –MM Bracket FIGURE 1.5-11. Enclosure with the –MM Bracket 1.5.7.
CM106 Tripod Remove the washers, nuts and U-bolt from the U-bolt bracket. Install the bracket as shown in Figure 1.5-12 (top). Tighten the nuts on the U-bolt until the lock washers are compressed. Route the 14 AWG wire from the grounding lug on the bottom side of the enclosure to the grounding lug on the base of the tripod (Figure 1.5-8). Strip 1/2” of insulation from each end of the wire. Insert wire ends into the grounding lugs and tighten. U-Bolt Bracket Screw Head Enclosure Tab FIGURE 1.5-12.
CM106 Tripod 1.6. Mounting Brackets Mounting brackets covered in this section have U-bolts that attach to vertical and/or horizontal pipes with the following ranges of outside diameters: inches mm Nominal Pipe Size (inches) 1.5” U-bolt 1.0 – 1.5 25.4 – 38.1 ¾–1 2” U-bolt 1.3 – 2.1 33.0 – 53.3 1–1½ 2” U-bolt with plastic V-block 1.0 – 2.1 25.4 – 53.3 ¾–1½ Some of the brackets (e.g. the CM210) include 1.5” and 2” U-bolts to extend the range of pipe diameters that the bracket can accommodate.
Section 2. UT10 2.1 UT10 Specifications Required Concrete Pad Dimensions (see note 1): 24 x 24 x 24 in. (61 x 61 x 61 cm) Crossarm Height (attached to mast) Standard: 10 ft (3 m) Maximum (mast fully extended): ~12 ft (3.7 m) Minimum: ~9 ft (2.7 m) Pipes Outer Diameter (OD) Vertical: Cross Support: 1 in. (2.5 cm) 0.375 in. (0.953 cm) Leg Spacing: 10.25 in.
Section 2. UT10 Tower Installation 2.2 UT10 Tower Installation The UT10 10-ft tower provides a support structure for mounting the weather station components. Figure 2.2-1 shows a typical UT10 equipped with instrumentation enclosure, meteorological sensors, and solar panel. 2.2.1 Base Installation The UT10 tower attaches to a user supplied concrete foundation as shown in Figure 2.2-2. The tilt base, anchor bolts, and nuts are included with the tower. 1. Dig a hole 24" square and 24" deep.
Section 2. UT10 Tower Installation FIGURE 2.2-1. UT10 Weather Station UT10 (3) Sleeves (4) Anchor bolts Concrete foundation FIGURE 2.2-2.
Section 2. UT10 Tower Installation FIGURE 2.2-3. Concrete Foundation and Anchor Bolts 2.2.2 Tower Installation 1. Install the mast as shown in Figure 2.2-4. Attach the 3/4" x 10" nipple to the mast using the bell reducer. Loosen the two bolts at the top of the tower and insert the mast. For a 3 m mounting height, the bell reducer should rest against the top of the tower. Tighten the two bolts to secure the mast. 2. Remove the three upper bolts on the aluminum sleeves attached to the base.
Section 2. UT10 Tower Installation 3/4" Nipple Bell Reducer Bolts to secure mast FIGURE 2.2-4. UT10 Mast 2.2.3 UT10 Tower Grounding 21 1. Drive the ground rod close to the tower using a fence post driver or sledge hammer. Drive the rod at an angle if an impenetrable hardpan layer exists. In hard clay soils, a gallon milk jug of water can be used to "prime" the soil and hole to make driving the rod easier. 2. Loosen the bolt that attaches the clamp to the ground rod.
Section 2. UT10 Tower Installation 12 AWG Wire 4 AWG Wire Ground Rod FIGURE 2.1-5. Tower Grounding 2.3 Crossarm Mounting General orientation of the mounting brackets is shown in Figure 2.2-1. Attach the crossarm at the desired height via the provided u-bolts and nuts (Figure 2.2-2). North FIGURE 2.2-1.
Section 2. UT10 Tower Installation FIGURE 2.2-2. CM210 crossarm-to-pole bracket (top) is included with the crossarm for attaching the crossarm to the tower’s mast or leg.
Section 2. UT10 Tower Installation 2.4 Enclosure Installation All instrumentation (datalogger, power supply, and communication peripherals) are mounted in the enclosure. A PVC bulkhead port is installed in the enclosure for routing the sensor and communication cables to the instrumentation. The “-TM” option is used to attach our enclosures to a UT10 tower.
Section 2. UT10 Tower Installation The default configuration is for attaching to a UT10 tower (i.e., D = 10.25”). To attach to a UT20 or UT30 tower, move the flange sections of the bracket so that D = 17”. Flange Section Flange Section FIGURE 2.4-2. This exploded view shows the components of a “-TM” bracket option. FIGURE 2.4-3. An enclosure attached to two tower legs.
3. HMP60 Temperature and Relative Humidity Probe 3.1. General The HMP60 Temperature and Relative Humidity probe contains a Platinum Resistance Temperature detector (PRT) and a Vaisala INTERCAP® capacitive relative humidity sensor. The -L option on the model HMP60 Temperature and Relative Humidity probe (HMP60-L) indicates that the cable length is user specified. Cable length is specified when the sensor is ordered. Table 3.1 gives the recommended cable length. This manual refers to the sensor as the HMP60.
HMP60 Temperature and Relative Humidity Probe 3.2.1 Temperature Sensor Sensor: 1000 Ω PRT, DIN 43760B Temperature Measurement Range: -40° to +60°C Temperature Accuracy: ±0.6°C (-40° to +60°C) 3.2.2.
HMP60 Temperature and Relative Humidity Probe The UT6P 6-plate Radiation Shield mounts to a UT10, UT20, or UT30 tower with the UT018 horizontal mounting arm. NOTE The black outer jacket of the cable is Santoprene® rubber. This compound was chosen for its resistance to temperature extremes, moisture, and UV degradation. However, this jacket will support combustion in air. It is rated as slow burning when tested according to U.L. 94 H.B. and will pass FMVSS302.
4. Met One 034B Windset 4.1. General The 034B Windset is used to measure horizontal wind speed and direction. Wind speed is measured with a three cup anemometer. Rotation of the cup wheel opens and closes a reed switch at a rate proportional to wind speed. Vane position is transmitted by a 10K ohm potentiometer. With a precision excitation voltage applied, the output voltage is proportional to wind direction.
Met One 034B Windset Wind Direction Measurement Range: 0 to 360° Threshold: 0.4 m s-1 (0.9 mph) Accuracy: ±4° Resolution: 0.5° Potentiometer Resistance: 0 to 10 kΩ open at crossover General Specifications Operating Temperature Range: -30° to +70°C Weight: 907 g (2.0 lb.) NOTE The black outer jacket of the cable is Santoprene® rubber. This compound was chosen for its resistance to temperature extremes, moisture, and UV degradation. However, this jacket will support combustion in air.
Met One 034B Windset CAUTION The set screw holes must be covered with the labels to prevent corrosion and assure the warranty. Mount the CM200-series crossarm to the tripod or tower. Orient the crossarm North-South, with the 1” NU-RAIL or CM220 on the North end. Remove the alignment screw at the base of the 034B (Figure 4-1). Insert the 034B into the aluminum bushing provided with the sensor. Align the hole in the bushing with that in the 034B base and replace the screw.
Met One 034B Windset CM220 CM200 Series Crossarm FIGURE 4-2. CM200 Series Crossarm with CM220 Right Angle Mounting Bracket Attach the sensor cable to the six pin male connector on the 034B. Make sure the connector is properly keyed. Finger tighten the knurled ring. Route the sensor cable along the underside of the crossarm to the tripod/tower, and to the instrument enclosure. Secure the cable to the crossarm and tripod/tower using cable ties. 4.4.
5. TE525 Tipping Bucket Rain Gage 5.1. General Description The TE525 is an adaptation of the standard Weather Bureau tipping bucket rain gage. Output is a switch closure for each bucket tip. Three models are available: • TE525 6 in. Collector 0.01 in. tip • TE525WS 8 in. Collector 0.01 in. tip • TE525MM 9.6 in Collector 0.1 mm tip A “–L” after the model number indicates that the cable length is specified when ordering.
TE525 Tipping Bucket Rain Gage Signal Output: Momentary switch closure activated by tipping bucket mechanism. Switch closure is approximately 135 ms. Calibration/Cleaning Frequency: Sensor is factory calibrated and should not require field calibration. Debris filters, funnel, and bucket reservoirs should be kept clean. Section 6 describes field calibration check and factory calibration. Environmental Limits: Temperature: 0° to +50°C Humidity: 0 to 100% Physical Data: Diameter: 6.25 in.
TE525 Tipping Bucket Rain Gage The rain gage should be placed away from objects that obstruct the wind. The distance should be 2 to 4 times the height of the obstruction. When leveling, be sure that the funnel is properly seated in the body of the gage and that: • • the orifice is level the body of the sensor is vertical (plumb). 5.3.2 Mounting The CM300 Series mounting poles provide a stainless steel 1.5 IPS vertical pole for mounting the TE525 rain gage.
6. LP02 Pyranometer 6.1. General Description This manual provides information for interfacing Hukseflux’s LP02 Pyranometer to various models of Campbell Scientific dataloggers. The LP02 is shipped with an instruction manual provided by Hukseflux that contains information concerning the LP02’s construction, spectral sensitivity, cosine response, and a simple sensor check out procedure. Included with the sensor and manual is a calibration certificate with the sensor calibration constant and serial number.
LP02 Pyranometer Spectral selectivity +/- 5% (305 to 2000 nm) Temperature response (within an interval of 50°C) within 6% (-10 to +40°C) Tilt response within +/- 2% LP02 ADDITIONAL MEASUREMENT SPECIFICATIONS Sensitivity 10-40 μV/Wm-2 Expected voltage output 0.1 to + 50 mV in natural sunlight Operating temperature -40 to +80°C Sensor resistance Between 40 and 60 Ohms Power required Zero (passive sensor) Standard cable length 16 ft (4.
LP02 Pyranometer The sensor should be mounted with the cable pointing towards the nearest magnetic pole, e.g., in the Northern Hemisphere point the cable toward the North Pole. The CM225 Solar Sensor Mounting Stand is used to attach the LP02 to a vertical pipe (1.0 – 2.1” OD) as shown in Figure 6.3-1. The LP02 includes a base with three leveling screws, bubble level, and mounting screws. Attach the LP02 to the CM225 as follows: 1.
7. CMP6-L, CMP11-L, and CMP21-L Pyranometers 6.1. Introduction CMP-series pyranometers are designed for continuous outdoor monitoring of solar radiation intensity. A flat spectral sensitivity from 285 to 2800 nm enables accurate measurements in natural sunlight, under plant canopies, and in green houses or buildings. When inverted, these pyranometers can measure reflected solar radiation. Uses include monitoring global horizontal irradiance (GHI) and plane of array irradiance (POA).
CMP6-L, CMP11-L, and CMP21-L Pyranometers 7.3.1 Ships With (2) Bolts for mounting from original mfg (1) Instruction Manual from original mfg (1) Sun Shield from original mfg (2) Nylon washers from original mfg 7.3.2 Calibration Certificate Each pyranometer is shipped with an instruction manual provided by Kipp & Zonen that contains information concerning its construction, spectral sensitivity, cosine response, and a simple sensor check out procedure.
CMP6-L, CMP11-L, and CMP21-L Pyranometers 7.4.2 Mounting See Section 7.6.1, Mounting to a Tripod Tower for more information. FIGURE 7-1. Pyranometer installation CM245 Adjustable Angle Mounting Stand CM2XX-Series Crossarm FIGURE 7-2.
CMP6-L, CMP11-L, and CMP21-L Pyranometers FIGURE 7-3. Two views of a pyranometer mounted at an angle for the Northern Hemisphere FIGURE 7-4.
CMP6-L, CMP11-L, and CMP21-L Pyranometers 7.5 Specifications 7.5.1 Pyranometers TABLE 7-1.
CMP6-L, CMP11-L, and CMP21-L Pyranometers FIGURE 7-6. Dimensions of the CMP6, CMP11, and CMP21 7.5.2 CVF3 Ventilation Unit Compatible Pyanometers: CMP6, CMP11, CMP21 Power supply: 12 Vdc, 1.3 A (with 10 W Heater) Operating temperature range: -40° to 70°C Ventilation power: 5 W continuously Heating power: 5 W and 10 W Heater induced offset: <1 W•m-2 (with CMP11 Pyranometer) Weight without cable: 1.6 kg (3.5 lb) FIGURE 7-7.
CMP6-L, CMP11-L, and CMP21-L Pyranometers 7.6. Installation 7.6.1 Mounting to a Tripod or Tower Tools required for installation on a tripod or tower: Small and medium Phillips screwdrivers 5/16”, 1/2” open end wrenches 5/32” Allen wrench Tape measure UV-resistant wire ties Side-cut pliers Compass Step ladder The pyranometers include a bubble level and two leveling screws, which allow them to be leveled horizontally without using a leveling base. They mount to a mast, crossarm, or pole (1.0 in. to 2.1 in.
CMP6-L, CMP11-L, and CMP21-L Pyranometers First 1.5” u-bolt 40 Second 1.5” u-bolt FIGURE 7-9. CM245 bracket with 1.5” u-bolts positioned to mount pyranometer at a 40° angle on a vertical pipe Do the following to level the pyranometer horizontally (see Figure 7-10): 1. Attach the mounting stand to the crossarm. 2. Loosely mount the pyranometer on the mounting stand. Do not fully tighten the two mounting screws. 3. Turn the leveling screws as required to bring the bubble of the level within the ring. 4.
CMP6-L, CMP11-L, and CMP21-L Pyranometers Sun shield Mounting screws Nylon washers Bubble level Pyranometer Levelling screw CM245 mounting stand Crossarm FIGURE 7-10 Exploded view of the pyranometer mounting 7.6.2 Wiring NOTE Short Cut users should wire the sensor according to the wiring diagram generated by Short Cut. The cable of the CMP6 and CMP11 has two conductors and a shield. The cable of the CMP21 has five conductors and a shield.
CMP6-L, CMP11-L, and CMP21-L Pyranometers 7.6.2.1 CMP6, CMP11, and CMP21 Thermopile Schematic A schematic diagram of a CMP6, CMP11, or CMP21 thermopile is shown in Figure 7-11. White Red (+) Black Blue (-) Black Shield FIGURE 7-11. CMP6, CMP11, and CMP21 thermopile detector schematic 7.6.2.2 CMP6 and CMP11 Wiring NOTE A CMP6 or CMP11 purchased from Campbell Scientific has different wiring than a pyranometer purchased directly from Kipp & Zonen.
CMP6-L, CMP11-L, and CMP21-L Pyranometers TABLE 7-3. CMP6 and CMP11 Single-Ended Connections to Campbell Scientific Dataloggers Color Description CR9000(X), CR5000, CR3000, CR1000, CR800 White Signal (+) SE Analog Black Signal (-) AG Clear Shield G CR510, CR500, CR10(X) 21X, CR7, CR23X SE Analog SE Analog 7.6.2.3 CMP21 Wiring NOTE A CMP21 purchased from Campbell Scientific has different wiring than a CMP21 purchased directly from Kipp & Zonen.
CMP6-L, CMP11-L, and CMP21-L Pyranometers TABLE 7-5.
Appendix A.
CR1000 Specifications Electrical specifications are valid over a -25° to +50°C range unless otherwise specified; non-condensing environment required. To maintain electrical specifications, Campbell Scientific recommends recalibrating dataloggers every two years. We recommend that the system configuration and critical specifications are confirmed with Campbell Scientific before purchase.
CH100 and PS100 12 Vdc Regulator and Power Supply Specifications* Output Voltage: 12 Vdc Nominal Capacity: 7 Amp hours Input Voltage (CHG terminals): 15 to 28 VDC or 18 VAC RMS Battery Connections Charging Output Voltage: Temperature compensated float charge for battery Temperature Compensation Range: -40º to +60ºC Max. Charging Current: 1.
CH200 and PS200 Smart Charging Regulator and Power Supply Specifications CHARGE - CHARGE Terminals (AC or DC Source) AC: 18 to 24 V RMS with 1.2 A RMS maximum DC: 16 to 40 Vdc with 1.1 A DC maximum SOLAR - Terminals1 (Solar Panel or Other DC Source) Input Voltage Range: 15 to 40 Vdc Maximum Charging Current: 3.6 Adc typical; 2.8 Adc to 4.
CM106 Instrumentation Tripod Specifications Measurement Height Upper Mast Retracted: Upper Mast Extended: 7 ft (2.1 m) 10 ft (3 m) Vertical Load Limit: 100 lb (45 kg) Mast Outer Diameter Main Lower Mast: Retractable Upper: 1.90 in. (48 mm) 1.74 in. (44 mm) Base Diameter: 9.3 ft (2.8 m) Leveling Adjustment: Slide collars on each leg adjust individually Leg Base: 4 in. by 5 in. with four 0.62 in. holes for ground stake Portability: Collapsible to 8 in.
BP84 84 Ah Rechargeable Battery Specifications Output Voltage: 12 Vdc Nominal Capacity: 84 Amp hours when discharged at a 24 hour rate Temperature Range: -40° to +71°C Weight Battery Only: Battery Only (shipping): Either Mounting Bracket: Dimensions Battery Shipping Box: BP84 Bracket: The BP84 bracket is mounted inside an ENC16/18 with a sideplate (option -SB) and two vertical cable conduits (option -VC). It is convenient to mount the 18529 SunSaver regulator on the sideplate.
UT10 Specifications Required Concrete Pad Dimensions (see note 2): 24 x 24 x 24 in. (61 x 61 x 61 cm) Crossarm Height (attached to mast) Standard: 10 ft (3 m) Maximum (mast fully extended): ~12 ft (3.7 m) Minimum: ~9 ft (2.7 m) Wind Load Recommendation (see note 3): 110 mph maximum Pipes Outer Diameter (OD) Vertical: Cross Support: 1 in. (2.5 cm) 0.375 in. (0.953 cm) Leg Spacing: 10.25 in.
NL115 Ethernet Interface and CompactFlash® Module Specifications Compliance: CE Compliant Power Requirements: 12 V supplied through the datalogger’s peripheral port Current Drain: 20 mA (CR1000 w/NL115 communicating over Ethernet) 43 mA (CR1000 w/NL115 communicating over Ethernet and accessing CF-card) Temperature Range Standard: Extended: EMI and ESD Protection: Application of Council Directive(s): -25° to +50°C -40° to +85°C Meets requirements for a class A device under European Standards 89/336/E
NL120 10baseT Ethernet Module Specifications Power Requirements: 12 V supplied through the datalogger’s peripheral port Current Drain: 20 mA EMI and ESD Protection: Application of Council Directive(s): Meets requirements for a class A device under European Standards 89/336/EEC as amended by 89/336/EEC and 93/68/EEC Temperature Range Standard: Extended: -25° to +50°C -40° to +85°C Standards to which Conformity is Declared: EN55022-1; 1995 and EN50082-1: 1992 Software Requirements LoggerNet: PC400:
RavenXT-Series Sierra Wireless Airlink Digital Cellular Modems Specifications RavenXTV RavenXTG Technology CDMA 1xRTT, EVDO Rev. A, CDMA IS-95, dual band GPRS (MS-12), quad band Bands Dual band: 800 MHz Cellular, 1900 MHz PCS Quad band: 850/1900 MHz; 900/1800 MHz Transmit Frequency 1850 to 1910 MHz and 824 to 849 MHz 850/1900 MHz: 824 to 849 MHz; 1850 to 1910 MHz 900/1800 MHz: 890 to 915 MHz; 1710 to 1785 MHz Transmit Power 1.0 W for 1900 MHz; 0.8 W for 850 MHz 1.0 W for 1900 MHz; 0.
CM245 and CVF3 Mounts for CMP-Series Pyranometers Outer glass dome CM245 Adjustable Angle, Mounting Stand Compatible Pipes: 1 to 2.1 in. outer diameter Inner glass dome Sun Shield CM245 Mount Crossarm Slots in the CM245 mount can be adjusted to any angle from horizontal to vertical. The pyranometer is typically mounted and leveled horizontally. CVF3 Heater/Ventilator Power Supply: 12 Vdc, 1.
