CR1000 Manual - Campbell Scientific

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Section 7. Installation Figure 29: Enclosure 7.4 Power Sources Note Reliable power is the foundation of a reliable data-acquisition system. When designing a power supply, consideration should be made regarding worstcase power requirements and environmental extremes. For example, the power requirement of a weather station may be substantially higher during extreme cold, while at the same time, the extreme cold constricts the power available from the power supply. Be aware that some ac-to-dc power converters produce switching noise or ac ripple as an artifact of the ac-to-dc rectification process. Excessive switching noise or ac (p. 447) ripple present on the output side of a power supply can increase measurement noise, and so increase measurement error. In addition to transformers and regulators, noise from grid or mains power may be transmitted through the transformer, or induced by electro-magnetic waves originating in nearby motors, heaters, or power lines. High-quality power regulators typically reduce noise due to power regulation. Utilizing the optional 50-Hz or 60-Hz rejection arguments for CRBasic analog input measurement instructions (see Sensor Support (p. 273) ) often improves rejection of noise sourced from power mains. The CRBasic standard deviation instruction, SDEV(), can be used to evaluate measurement noise. Power supplies available from Campbell Scientific can be reviewed in the appendix Power Supplies (p. 564), or at www.campbellsci.com. Contact a Campbell 82
Section 7. Installation 7.4.1 CR1000 Power Requirement 7.4.2 Calculating Power Consumption 7.4.3 Power Supplies 7.4.3.1 External Batteries 7.4.4 Vehicle Power Connections Scientific application engineer if assistance in selecting a power supply is needed, particularly with applications in extreme environments. The CR1000 operates on dc voltage ranging from 9.6 to 16 Vdc. It is internally protected against accidental polarity reversal. A transient voltage suppressor (TVS) diode on the 12-Vdc power input terminal (p. 35) provides transient protection by clamping voltages in the range of 19 to 21 V. Sustained input voltages in excess of 19 V can damage the TVS diode. Caution The 12V and SW-12 terminals on the wiring panel are not regulated by the CR1000; they are at the same voltage levels as the CR1000 primary power supply. When using the CR1000 wiring panel to source power to other 12-Vdc devices, be sure the power supply regulates the voltage within the range specified by the manufacturer of the connected device. Read More! Power Requirements (p. 64). System operating time for batteries can be determined by dividing the battery capacity (ampere-hours) by the average system current drain (amperes). The CR1000 typically has a quiescent current draw of 0.5 mA (with display off), 0.6 mA with a 1-Hz sample rate, and >10 mA with a 100-Hz sample rate. With the external keyboard / display on, an additional 7 mA is added to the current drain while enabling the backlight for the display adds 100 mA to the current drain. The appendix Power Supplies (p. 564) lists external power supplies available from Campbell Scientific, including alkaline and solar options. More information is available in manual or brochure form at www.campbellsci.com. When connecting external power to the CR1000, remove the green POWER IN connector from the CR1000 face. Insert the positive 12-Vdc lead into green connector terminal 12V. Insert the ground lead in green connector terminal G. Re-seat the green connector into the CR1000. The CR1000 is internally protected against reversed external-power polarity. Should this occur, correct the wire connections. If a CR1000 is powered by a motor-vehicle power supply, a second power supply may be needed. When starting the motor of the vehicle, battery voltage often drops below 9.6 Vdc. This causes the CR1000 to stop measurements until the voltage again equals or exceeds 9.6 Vdc. A second supply can be provided to prevent measurement lapses during vehicle starting. The figure Connecting CR1000 to Vehicle Power Supply (p. 84) illustrates how a second power supply should be connected to the CR1000. The diode OR connection causes the supply 83
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CR1000 Measurement and Control Syst
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Assistance Products may not be retu
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Table of Contents Section 5. System
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Table of Contents 7.7.3.4 Single-Li
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Table of Contents CRBasic Example 6
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Section 1. Introduction Italic —
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Section 2. Cautionary Statements 30
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Section 9. Maintenance 9.1 Moisture
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Section 10. Troubleshooting Battery
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Section 11. Glossary 11.1 Terms ac
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Section 11. Glossary watchdog timer
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Appendix A. CRBasic Programming Ins
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Appendix B. Status Table and Settin
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Appendix C. Serial Port Pinouts C.1
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Appendix C. Serial Port Pinouts Tab
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Appendix D. ASCII / ANSI Table Amer
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Appendix D. ASCII / ANSI Table Dec
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Appendix E. FP2 Data Format FP2 dat
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Appendix F. Other Campbell Scientif
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Index 1 12V Terminal...............
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Index Communications Memory Errors
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Index Expression...................
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Index IP Information...............
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Index PanelTemp....................
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Index Runtime Errors...............
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Index TCDiff ......................
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CR1000 Manual - Campbell Scientific

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