FEATURES 0... 5 to 0... 5, differential or gage Calibrated and temperature compensated Matched pressure volumes Miniature SMT and SIL housings RoHS compliant SPECIFICATIONS Maximum ratings EQUIVALENT CIRCUIT Supply voltage V S 6 V DC Lead specifications Average preheating temperature gradient.5 K/s Soak time ca. 3 min Time above C 50 s Time above 30 C 0 s Time above 50 C 5 s Peak temperature 60 C Cooling temperature gradient -3.5 K/s Temperature ranges Compensated HCL0005..., HCLx5... 0... 50 C all others 0... 0 C Operating -5... 85 C Storage -0... 5 C -Vout +Vs 3 -Vs +Vout Humidity limits (non-condensing) 0... 95 %RH /0
PRESSURE SENSOR CHARACTERISTICS Part no. HCL0005... HCLX5... HCL005... HCL0050... HCL005... Operating pressure, 8 Proof pressure 5 Burst pressur e 6, 8 0...5 50 500 0...5 50 500 0...5 500 50 0...50 50 00 0...5 00 000 PERFORMANCE CHARACTERISTICS (V s = V, T A = 5 C, pressure applied to high pressure ) HCL0005... C haracteristics M in. N om. Max. Zero pressure offset ±0. 5, Full scale span 3.0 mba r 5 9. 0 0. 0. 0 0.0 8. 0 0. 0. 0 Units Combined non-linearity and hysteresis ± 0.05 ± 0.5 %FS Temperature effects (0 to 50 C) ± 00 ±50 Span at 5.0 ±00 warm-up shift ±00 position sensitivity (±g) ± 5 ±50 long term drift (one year) ± 80 ±00 Input. 5 Output. 5 mv µv kω Specification notes:. Shift is within in the first hour of excitation.. Non-linearity refers to the Best Straight Line fit, measured for offset pressure, full scale pressure and / full scale pressure. 3. Full scale span is the algebraic difference between the output voltage at full scale pressure and the output voltage at zero pressure.. Zero pressure offset and span are ratiometric to the supply voltage. 5. Proof pressure is the maximum pressure which may be applied without causing durable shifts of the electrical parameters of the sensing element. 6. Burst pressure is the maximum pressure which may be applied to one pressure relative to the other without causing leaks to the sensor.. Shifts are relative to 5 C. 8. The common mode pressure for the HCL series is bar. Common mode pressure is the maximum pressure that can be applied to both s of a differential pressure sensor simultaneously without damaging the sensor housing. /0
PERFORMANCE CHARACTERISTICS (cont.) (V s = V, T A = 5 C, pressure applied to high pressure ) HCLX5... C haracteristics M in. N om. Max. Zero pressure offset ±0. 5, Full scale span 3 9. 0 0. 0. 0 Units Combined non-linearity and hysteresis ± 0.05 ± 0.5 %FS Temperature effects (0 to 50 C) ±50 Span ±00 warm-up shift ±50 position sensitivity (±g) ±0 long term drift (one year) ±00 Input. 5 Output. 5 mv µv kω HCL005... C haracteristics M in. N om. Max. Zero pressure offset ±0. 5, Full scale span 3 9. 0 0. 0. 0 Units Combined non-linearity and hysteresis ± 0.05 ± 0.5 %FS Temperature effects (0 to 0 C) ±50 Span ±00 warm-up shift ±50 position sensitivity (±g) ± 5 long term drift (one year) ±00 Input. 5 Output. 5 mv µv kω 3/0
PERFORMANCE CHARACTERISTICS (cont.) (V s = V, T A = 5 C, pressure applied to high pressure ) HCL0050... C haracteristics M in. N om. Max. Zero pressure offset ±0. 5, Full scale span 3 9. 0 0. 0. 0 Units Combined non-linearity and hysteresis ± 0.05 ± 0.5 %FS Temperature effects (0 to 0 C) ±50 Span ±00 warm-up shift ±50 position sensitivity (±g) ± 5 long term drift (one year) ±00 Input. 5 Output. 5 mv µv kω HCL005... C haracteristics M in. N om. Max. Zero pressure offset ±0. 5, Full scale span 3 9. 0 0. 0. 0 Units Combined non-linearity and hysteresis ± 0.05 ± 0.5 %FS Temperature effects (0 to 0 C) ±50 Span ±00 warm-up shift ±50 position sensitivity (±g) ± 5 long term drift (one year) ±00 Input. 5 Output. 5 mv µv kω /0
PHYSICAL DIMENSIONS AND ELECTRICAL CONNECTIONS HCL...D... SIL dual, same side.0.0.0 6.30 3.00.5 0.30 0.5.0 HCL...E... SMD dual, same side.0 5.90 6.0 3.00 6.90 6.6.0.06.06 5.3.0 8 6 5 5 6 8 N / C.0 8.6.6.0 5.90 5/0
PHYSICAL DIMENSIONS AND ELECTRICAL CONNECTIONS (cont.) HCL...G... SIL single.0 6.30.5 0.30 0.5 HCL...H... SMD single.68 3.0 5.90.0.0 8 6 5 6.0 6.6 5.3.06 5 6 8 N / C 8.6.0 5.90 6/0
HOUSING OPTIONS Different housing options are available on request. Please contact First Sensor. SIL dual, opposite side (HCL...P...).0 6.30.5 0.30 0.5.0 9.0.0.0 SMD dual, opposite side (HCL...Q...) 6.90 6.0 5.3.06 6.6.0 8 6 5 5 6 8 N / C.06.0.0 8.6 3.50 9.0 /0
HOUSING OPTIONS (cont.) Different housing options are available on request. Please contact First Sensor. SIL dual, top side (HCL...T...).0.85.0.85 8.55.5.0 0.30 0.5.0 3.00 8/0
HOUSING OPTIONS (cont.) Different housing options are available on request. Please contact First Sensor. Barbed pressure s (Available for all housing styles. Sample package shown: SMD dual, same side) 6.90 5.00.0 6.00 8 6 5 6.0. 5.50 5.00.9 0. 5..50.99 8.00.6.35 6.0.0 Dual Inline Packages (DIP) (Available for all housing styles. Sample package shown: DIP dual, same side).0 6.90. 8 6 5 Ø.0 6.0 0.5 3.00 9.8 3.59.0 3.8 6.9.0 5.90 8.9 9/0
ORDERING INFORMATION Options Series Pressure range Housing HCL 0005 5 D Diff SIL same side X5.5 E Diff SMD same side 005 5 G Gage SIL 0050 50 H Gage SMD 005 5 ( P) Diff SIL opposite side ( Q) Diff SMD opposite side ( T) Diff SIL same top side Example: HCL 0005 D Housings P, Q, T available on request. Please contact First Sensor. Custom specific pressure ranges and sensor modifications are widely available: barbed pressure s Dual inline packages (DIP)... etc. Please contact First Sensor for further information. First Sensor reserves the right to make changes to any products herein. First Sensor does not assume any liability arising out of the application or use of any product or circuit described herein, neither does it convey any license under its patent rights nor the rights of others. 0/0