D6F-PH MEMS Differential pressure Sensor A Compact, High-accuracy Differential Pressure Sensor with Superior Resistance to Environments. High accuracy of 3% RD Linearized and temperature compensated Digital output (I2C communication) High flow impedance to reduce the influence of bypass configuration RoHS Compliant Refer to the Common Precautions for the D6F Series on page 40. Ordering Information Applicable fluid (See note 1.) Measurement range (See note 3.) Model 0 to 250 Pa (0 to 1 in. H2O) D6F-PH0025AD1 Air (See note 2.) -50 to +50 Pa (0.2 in. H2O) D6F-PH0505AD3 -500 to +500 Pa (2 in. H2O) D6F-PH5050AD3 Note: 1. The Sensor be calibrated for different gas types. Consult your Omron representative. Note: 2. Dry gas must not contain large particles, e.g., dust, oil, or mist. Note: 3. At standard atmospheric pressure (1013.25 hPa) Output Characteristics D6F-PH0025AD1 D6F-PH0505AD3 70000 70000 60000 60000 50000 50000 40000 40000 30000 30000 20000 20000 10000 10000 0 0 0 50 100 150 200 250 -50 -30 -10 10 30 50 Differential pressure (Pa) Differential pressure (Pa) Differential Differential 0 50 100 150 200 250 -50 -30 -10 0 10 30 50 pressure (Pa) pressure (Pa) Output 1024 13024 25024 37024 49024 61024 Output 1024 13024 25024 31024 37024 49024 61024 (HEX) (0400) (32E0) (61C0) (90A0) (BF80) (EE60) (HEX) (0400) (32E0) (61C0) (7930) (90A0) (BF80) (EE60) Measurement conditions: Power supply voltage of 3.3 0.1 VDC, ambient tem- Measurement conditions: Power supply voltage of 3.3 0.1 VDC, ambient tem- perature of 255C, and ambient humidity of 35% to 75%. perature of 255C, and ambient humidity of 35% to 75%. Differential pressure conversion formula: Dp = (Op - 1024) / 60000 250 Differential pressure conversion formula: Dp = (Op - 1024) / 60000 100 - 50 Dp = Differential pressure, Op = Output Dp = Differential pressure, Op = Output D6F-PH5050AD3 70000 60000 50000 40000 30000 20000 10000 0 -500 -300 -100 100 300 500 Differential pressure (Pa) Differential Note. Change of gas density affects the sensor output. -500 -300 -100 0 100 300 500 pressure (Pa) Change of atmospheric pressure is compensated by the following formula. Dpeff = Dp (Pstd / Pamb) Output 1024 13024 25024 31024 37024 49024 61024 Dpeff: Effective differential pressure (HEX) (0400) (32E0) (61C0) (7930) (90A0) (BF80) (EE60) Dp: Differential pressure of the sensor output Measurement conditions: Power supply voltage of 3.3 0.1 VDC, ambient tem- Pstd: Standard atmospheric pressure (1013.25 hPa) perature of 255C, and ambient humidity of 35% to 75%. Pamb: Actual ambient atmospheric pressure (hPa) Differential pressure conversion formula: Dp = (Op - 1024) / 60000 1000 - 500 Dp = Differential pressure, Op = Output 28 Output (count) Output (count) Output (count)D6F-PH MEMS Differential pressure Sensor Characteristics/Performance Model D6F-PH0025AD1 D6F-PH0505AD3 D6F-PH5050AD3 Differential pressure range (See note 1) 0 to 250 Pa 50 Pa 500 Pa Calibration Gas (See note 2.) Air Port Type Bamboo joint, Maximum outside diameter: 4.9 mm, minimum outside diameter: 4.0 mm Power Supply 2.3 to 3.6 VDC Current Consumption 6 mA max. with no load and Vcc of 3.3 VDC, GND = 0 VDC, 25C Resolution 12 bit Zero point tolerance (See note 4.) 0.2 Pa Span tolerance (See note 4.) 3% RD Span shift due to temperature variation < 0.5% RD per 10C 33 ms typical at 12 bit resolution (50 ms max.) Response time The processing time is 6 ms typical at 12 bit resolution. Gas flow through sensor (See note 3.) 63 mL/min 23 mL/min 100 mL/min Interface I2C Case material PPS Degree of Protection IEC IP40 (Excluding tubing sections.) Withstand Pressure 10 kPa Operating temperature (See note 5.) -20 to +80C Operating humidity (See note 5.) 35 to 85 %RH Storage temperature (See note 5.) -40 to +80C Storage humidity (See note 5.) 35 to 85 %RH Insulation Resistance Between Sensor outer cover and lead terminals: 20 M min. (at 500 VDC) Dielectric Strength Between Sensor outer cover and lead terminals: 500 VAC, 50/60 Hz min. for 1 min (leakage current: 1 mA max.) Weight 5.2 g Note: 1. At standard atmospheric pressure (1013.25 hPa) Note: 2. Dry gas must not contain large particles, e.g., dust, oil, or mist. Note: 3. Type D6F-PH is based on thermal flow principle. Air flow is needed to measure the differential pressure. Typical characteristic of air flow by differential pressure is below. Note: 4. The zero point tolerance and span tolerance are independent uncertainties and add according to the principles of error propagation. Note: 5. With no condensation or icing. Note: 6. Please call us about functions, such as fault detection, temperature check, Vdd check, threshold value setup. Relation between pressure and flow rate 60 40 20 0 -20 -40 0 -500 -300 -100 100 300 500 Differential pressure (Pa) 29 Flow rate (mL/min)