Campbell Scientific HMP155A HMP155A Temperature and Relative Humidity Probe - Page 22
Long Lead Lengths, TABLE 7-4., Parameters for Temperature, Units, Multiplier, degrees mV, Offset - l vaisala
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HMP155ATemperature and Relative Humidity Probe NOTE datalogger control between measurements. For lead lengths greater than 6.1 m (20 ft.) or when the probe will be continuously powered, use a differential analog measurement. For a discussion on errors caused by long lead lengths see Section 7.4. HMP155A sensors purchased directly from Vaisala with serial numbers < E4430001 require approximately 5 seconds warm up time. The HMP155A output scale is 0 to 1000 millivolts for the temperature range of -80° to +60°C -112 to +140°F) and for the relative humidity range of 0 to 100%. Multipliers and offsets for converting voltage to temperature and relative humidity are listed in TABLE 7-4 and TABLE 7-5 respectively. TABLE 7-4. Parameters for Temperature Units Celsius Fahrenheit Multiplier (degrees mV-1) 0.14 0.252 Offset (degrees) -80 -112 TABLE 7-5. Parameters for Relative Humidity Units Percent Fraction Multiplier (% mV-1) 0.1 0.001 Offset (%) 0 0 7.4 Long Lead Lengths This section describes the error associated with measuring the HMP155A with a single-ended measurement if the probe has a long cable. To avoid these problems, Campbell Scientific recommends measuring the HMP155A using a differential analog measurement (Instruction 2) when long lead lengths are required. Generic datalogger connections for measuring the HMP155A using a differential measurement are given in TABLE 7-2. Understanding the details in this section is not required for the general operation of the HMP155A with Campbell Scientific's dataloggers. The signal reference (white) and the power ground (black) are in common inside the HMP155A. When the HMP155A temperature and relative humidity are measured using a single-ended analog measurement, both the signal reference and the power ground are connected to ground at the datalogger. The signal reference and the power ground both serve as the return path for 12 V. There will be a voltage drop along those leads because the wire itself has resistance. The HMP155A draws approximately 4 mA when it is powered. The wire used in the HMP155A (pn 9721) has resistance of 27.7 Ω/1000 feet. Since the signal reference and the power ground are both connected to ground at the datalogger, the effective resistance of those wires together is half of 27.7 14