Freescale Semiconductor Data Sheet: Technical Data Document Number: MPXV7002 Rev 3, 01/2015 MPXV7002 Integrated Silicon Pressure Sensor On-Chip Signal Conditioned, Temperature Compensated and Calibrated MPXV7002 -2 to +2 kPa (-0.3 to +0.3 psi) 0.5 to 4.5 V Output The MPXV7002 series piezoresistive transducers are state-of-the-art monolithic silicon pressure sensors designed for a wide range of applications, but particularly those employing a microcontroller or microprocessor with A/D inputs. This transducer combines advanced micromachining techniques, thinfilm metallization, and bipolar processing to provide an accurate, high level analog output signal that is proportional to the applied pressure. MPXV7002GC6U/C6T1 CASE 482A Features • 2.5% Typical Error over +10C to +60C with Auto Zero • 6.25% Maximum Error over +10C to +60C without Auto Zero • Ideally Suited for Microprocessor or Microcontroller-Based Systems • Thermoplastic (PPS) Surface Mount Package • Temperature Compensated over +10 to +60C • Patented Silicon Shear Stress Strain Gauge • Available in Differential and Gauge Configurations MPXV7002GP CASE 1369 MPXV7002DP CASE 1351 Small Outline Package Top view N/C 5 4 VOUT N/C 6 3 GND N/C 7 2 VS N/C 8 1 N/C Pinout (Style 2, case number 98ASA99255D) ORDERING INFORMATION Package Case Device Name No. Options Small Outline Package (MPXV7002 Series) MPXV7002GC6U 482A Rails MPXV7002GC6T1 482A Tape & Reel MPXV7002GP Trays 1369 MPXV7002DP Trays 1351 None # of Ports Single Dual • • • © 2005, 2009, 2015 Freescale Semiconductor, Inc. All rights reserved. Gauge Pressure Type Differential Absolute MPXV7002G • • • • Device Marking MPXV7002G MPXV7002G • MPXV7002DP 1 Operating Characteristics Table 1. Operating Characteristics (VS = 5.0 Vdc, TA = 25°C unless otherwise noted. Decoupling circuit shown in Figure 3 required to meet specification.) Characteristic Pressure Range Supply Voltage (1) (2) Supply Current Symbol Min Typ Max Unit POP –2.0 — 2.0 kPa VS 4.75 5.0 5.25 Vdc Io — — 10 mAdc Pressure Offset(3) @ VS = 5.0 Volts (10 to 60C) Voff 2.25 2.5 2.75 Vdc Full Scale Output(4) @ VS = 5.0 Volts (10 to 60C) VFSO 4.25 4.5 4.75 Vdc Full Scale Span(5) @ VS = 5.0 Volts (10 to 60C) VFSS 3.5 4.0 4.5 V Vdc Accuracy(6) (10 to 60C) — — 2.5(7) 6.25 %VFSS V/P — 1.0 —- V/kPa Response Time(8) tR — 1.0 —- ms Output Source Current at Full Scale Output IO+ — 0.1 —- mAdc — — 20 —- ms Sensitivity Warm-Up Time (9) 1. 1.0 kPa (kiloPascal) equals 0.145 psi. 2.Device is ratiometric within this specified excitation range. 3.Offset (Voff) is defined as the output voltage at the minimum rated pressure. 4.Full Scale Output (VFSO) is defined as the output voltage at the maximum or full rated pressure. 5.Full Scale Span (VFSS) is defined as the algebraic difference between the output voltage at full rated pressure and the output voltage at the minimum rated pressure. 6.Accuracy (error budget) consists of the following: Linearity: Temperature Hysteresis: Pressure Hysteresis: TcSpan: TcOffset: Variation from Nominal: Output deviation from a straight line relationship with pressure over the specified pressure range. Output deviation at any temperature within the operating temperature range, after the temperature is cycled to and from the minimum or maximum operating temperature points, with zero differential pressure applied. Output deviation at any pressure within the specified range, when this pressure is cycled to and from the minimum or maximum rated pressure, at 25C. Output deviation over the temperature range of 10 to 60C, relative to 25C. Output deviation with minimum rated pressure applied, over the temperature range of 10 to 60C, relative to 25C. The variation from nominal values, for Offset or Full Scale Span, as a percent of VFSS, at 25C. 7.Auto Zero at Factory Installation: Due to the sensitivity of the MPXV7002 Series, external mechanical stresses and mounting position can affect the zero pressure output reading. Auto zero is defined as storing the zero pressure output reading and subtracting this from the device's output during normal operations. Reference AN1636 for specific information. The specified accuracy assumes a maximum temperature change of ± 5C between auto zero and measurement. 8.Response Time is defined as the time for the incremental change in the output to go from 10% to 90% of its final value when subjected to a specified step change in pressure. 9.Warm-up Time is defined as the time required for the product to meet the specified output voltage after the Pressure has been stabilized. MPXV7002 2 Sensors Freescale Semiconductor, Inc. 2 Maximum Ratings Table 2. Maximum Ratings(1) Rating Symbol Value Unit Maximum Pressure (P1 > P2) Pmax 75 kPa Storage Temperature Tstg –30 to +100 C Operating Temperature TA 10 to 60 C 1.Exposure beyond the specified limits may cause permanent damage or degradation to the device. Figure 1 shows a block diagram of the internal circuitry integrated on a pressure sensor chip. VS 2 Thin Film Temperature Compensation and Gain Stage #1 Sensing Element GND Gain Stage #2 and Ground Reference Shift Circuitry Vout 4 Pins 1, 5, 6, 7, and 8 are NO CONNECTS for Small Outline Package Device 3 Figure 1. Integrated Pressure Sensor Schematic MPXV7002 Sensors Freescale Semiconductor, Inc. 3 3 On-Chip Temperature Compensation, Calibration and Signal Conditioning The performance over temperature is achieved by integrating the shear-stress strain gauge, temperature compensation, calibration and signal conditioning circuitry onto a single monolithic chip. Figure 2 illustrates the Differential or Gauge configuration in the basic chip carrier (Case 482). A gel die coat isolates the die surface and wire bonds from the environment, while allowing the pressure signal to be transmitted to the sensor diaphragm. The MPXV7002 series pressure sensor operating characteristics, and internal reliability and qualification tests are based on use of dry air as the pressure media. Media, other than dry air, may have adverse effects on sensor performance and long-term reliability. Contact the factory for information regarding media compatibility in your application. Figure 3 shows the recommended decoupling circuit for interfacing the integrated sensor to the A/D input of a microprocessor or microcontroller. Proper decoupling of the power supply is recommended. Figure 4 shows the sensor output signal relative to pressure input. Typical, minimum, and maximum output curves are shown for operation over a temperature range of 10 to 60C using the decoupling circuit shown in Figure 3. The output will saturate outside of the specified pressure range. Fluoro Silicone Gel Die Coat Die Stainless Steel Cap P1 Thermoplastic Case Wire Bond Lead Frame P2 Die Bond Differential Sensing Element Figure 2. Cross-Sectional Diagram SOP (not to scale) +5 V Vout OUTPUT Vs IPS 1.0 F 0.01 F GND 470 pF Figure 3. Recommended Power Supply Decoupling and Output Filtering (For additional output filtering, please refer to Application Note AN1646.) MPXV7002 4 Sensors Freescale Semiconductor, Inc. 5.0 Transfer Function: Vout = VS (0.2 P(kPa)+0.5) ± 6.25% VFSS VS = 5.0 Vdc TA = 10 to 60°C Output Voltage (V) 4.0 3.0 TYPICAL MAX 2.0 MIN 1.0 0 -2 -1 0 2 1 Differential Pressure (kPa) Figure 4. Output versus Pressure Differential 4 Pressure (P1)/Vacuum (P2) Side Identification Table Freescale designates the two sides of the pressure sensor as the Pressure (P1) side and the Vacuum (P2) side. The Pressure (P1) side is the side containing a gel die coat which protects the die from harsh media. The Pressure (P1) side may be identified by using the following table: Part Number Pressure (P1) Side Identifier Case Type MPXV7002GC6U/GC6T1 482A-01 Side with Port Attached MPXV7002GP 1369-01 Side with Port Attached MPXV7002DP 1351-01 Side with Part Marking 5 Minimum Recommended Footprint for Surface Mounted Applications Surface mount board layout is a critical portion of the total design. The footprint for the surface mount packages must be the correct size to ensure proper solder connection interface between the board and the package. With the correct footprint, the packages will self align when subjected to a solder reflow process. It is always recommended to design boards with a solder mask layer to avoid bridging and shorting between solder pads. 0.100 TYP 8X 2.54 0.660 16.76 0.060 TYP 8X 1.52 0.300 7.62 0.100 TYP 8X 2.54 inch mm SCALE 2:1 Figure 5. Small Outline Package Footprint MPXV7002 Sensors Freescale Semiconductor, Inc. 5 6 Package Dimensions -A- D 4 0.25 (0.010) 5 N 8 PL M T B S A S NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: INCH. 3. DIMENSION A AND B DO NOT INCLUDE MOLD PROTRUSION. 4. MAXIMUM MOLD PROTRUSION 0.15 (0.006). 5. ALL VERTICAL SURFACES 5˚ TYPICAL DRAFT. -BG 8 1 S W V C H J -TK M PIN 1 IDENTIFIER DIM A B C D G H J K M N S V W INCHES MIN MAX 0.415 0.425 0.415 0.425 0.500 0.520 0.038 0.042 0.100 BSC 0.002 0.010 0.009 0.011 0.061 0.071 0˚ 7˚ 0.444 0.448 0.709 0.725 0.245 0.255 0.115 0.125 MILLIMETERS MIN MAX 10.54 10.79 10.54 10.79 12.70 13.21 0.96 1.07 2.54 BSC 0.05 0.25 0.23 0.28 1.55 1.80 0˚ 7˚ 11.28 11.38 18.01 18.41 6.22 6.48 2.92 3.17 SEATING PLANE CASE 482A-01 ISSUE A SMALL OUTLINE PACKAGE MPXV7002 6 Sensors Freescale Semiconductor, Inc. CASE 1351-01 ISSUE A SMALL OUTLINE PACKAGE MPXV7002 Sensors Freescale Semiconductor, Inc. 7 MPXV7002 8 Sensors Freescale Semiconductor, Inc. CASE 1369-01 ISSUE B SMALL OUTLINE PACKAGE MPXV7002 Sensors Freescale Semiconductor, Inc. 9 CASE 1369-01 ISSUE B SMALL OUTLINE PACKAGE MPXV7002 10 Sensors Freescale Semiconductor, Inc. 7 Revision History Table 1. Revision History Revision number Revision date 3 01/2015 Description of changes • Updated data sheet format. • Added Pinout. • Updated package outline for 98ASA99303D. MPXV7002 Sensors Freescale Semiconductor, Inc. 11 How to Reach Us: Information in this document is provided solely to enable system and software Home Page: www.freescale.com implementers to use Freescale products. There are no express or implied copyright Web Support: http://www.freescale.com/support information in this document. licenses granted hereunder to design or fabricate any integrated circuits based on the Freescale reserves the right to make changes without further notice to any products herein. Freescale makes no warranty, representation, or guarantee regarding the suitability of its products for any particular purpose, nor does Freescale assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters that may be provided in Freescale data sheets and/or specifications can and do vary in different applications, and actual performance may vary over time. All operating parameters, including “typicals,” must be validated for each customer application by customer’s technical experts. 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