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3.3 Connecting Hose Sensirion recommends a hose with an inner diameter of 1/8 to 3/20 inch (3.18 to 3.8mm). Due to the dynamic measurement principle, a small air flow is required (Figure 6) which leads to a dependence on the length of the hose (Figure 7). Tubes up to 1 m show less than 1 % error of the measured value (Figure 7). Length of the connecting hose Deviation of Measured Value 0.5 m (20 inch) - 0.4 % 1.0 m (40 inch) - 0.8 % gas flow [sccm] 2.0 m (80 inch) - 1.6 % 020406080100120
020406080100differential pressure [% full scale] 4.0 m (160 inch) - 3.2 % Figure 6: Typical air flow through the SDP1000 / SDP2000. Please note: 1 sccm = 1 cm 3 /min at 0°C and 1013 mbar pressure (1 sccm = 0.001 norm liter). Figure 7: Influence of the length of the connecting hose on the accuracy (using 3/16 inch inner diameter). Example: a 50 Pa difference pressure is shown as 49.8 Pa when using 0.5 m tube with 3/16 inch diameter. V supply 5V IC 1 IC 2 C 1 C 1 R 2 C Example: Output V out : 0…10 Vdc Range: 0…500 Pa, linear characteristics Power metering V SDP1000 / SDP2000 supply : 14.5… 27 Vdc 1 2 3 1 2 3 1 R Component Value 1 R IC 1 LM78L12 IC 2 LP2980 SDP SDP1000 5V 12V 12V 12V 12V OP 1 , OP 2 , OP 3 LMC6044 2 OP C 1 200 nF 2 R 1 OP 3 1 R + - + - 4 R V out C 2 2.2 uF + - R 1 10 k (5%, 10 ppm) 3 R 6 R R 2 18 k (5%, 10 ppm) 1 R R 3 1 k (5%, 10 ppm) 5 OP R 4 100 V = (V – 5V (R /(R +R ))) (R +R )/R R 5 6 k (3x18 k 5%, 10 ppm in parallel) out SDP * 3 2 3 * 5 6 5 R 6 10 k (5%, 10 ppm) Figure 8: Schematic of a high-end differential industrial pressure transmitter using the SDP1000 / SDP2000. With only a few external components and no additional calibration the transmitter features an accurate and temperature compensated 0…10 Vdc output signal. www.sensirion.com v 3.1 June 2008 7/10
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