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| Pressure Freescale Semiconductor + MPX10 Rev 13, 09/2008 10 kPa Uncompensated Silicon Pressure Sensors The MPX10 series silicon piezoresistive pressure sensors provide a very accurate and linear voltage output, directly proportional to the applied pressure. These standard, low cost, uncompensated sensors permit manufacturers to design and add their own external temperature compensation and signal conditioning networks. Compensation techniques are simplified because of the predictability of Freescale's single element strain gauge design. MPX10 Series 0 to 10 kPa (0 to 1.45 psi) 35 mV Full Scale Span (Typical) Application Examples * * * * * * * * Air Movement Control Environmental Control Systems Level Indicators Leak Detection Medical Instrumentation Industrial Controls Pneumatic Control Systems Robotics Features * * * * * Low Cost Patented Silicon Shear Stress Strain Gauge Design Ratiometric to Supply Voltage Differential and Gauge Options Durable Epoxy Unibody Element or Thermoplastic (PPS) Surface Mount Package ORDERING INFORMATION Device Name MPX10D MPX10DP MPX10GP MPXV10GC6U MPXV10GC7U Package Options Tray Tray Tray Rail Rail Case No. 344 344C 344B 482A 482C None * # of Ports Single Dual * * * * Gauge Pressure Type Differential * * Absolute * * * SMALL OUTLINE PACKAGE UNIBODY PACKAGE MPXV10GC6U CASE 482A-01 MPXV10GC7U CASE 482C-03 MPX10D CASE 344-15 MPX10GP CASE 344B-01 MPX10DP CASE 344C-01 (c) Freescale Semiconductor, Inc., 2007-2008. All rights reserved. Pressure Operating Characteristics Table 1. Operating Characteristics (VS = 3.0 Vdc, TA = 25C unless otherwise noted, P1 > P2) Characteristic Differential Pressure Range Supply Voltage(2) (1) Symbol POP VS IO VFSS VOFF V/ -- -- -- TCVFSS TCVOFF TCR ZIN ZOUT tR -- -- Min 0 -- -- 20 0 -- -1.0 -- -- -0.22 -- 0.21 400 750 -- -- -- Typ -- 3.0 6.0 35 20 3.5 -- 0.1 0.5 -- 15 -- -- -- 1.0 20 0.5 Max 10 6.0 -- 50 35 -- 1.0 -- -- -0.16 -- 0.27 550 1250 -- -- -- Units kPa VDC mAdc mV mV mV/kPa %VFSS %VFSS %VFSS %VFSS/C V/C %ZIN/C ms ms %VFSS Supply Current Full Scale Span(3) Offset(4) Sensitivity Linearity Pressure Hysteresis (0 to 10 kPa) Temperature Hysteresis Temperature Coefficient of Full Scale Span Temperature Coefficient of Offset Temperature Coefficient of Resistance Input Impedance Output Impedance Response Time(5) (10% to 90%) Warm-Up Time(6) Offset Stability(7) 1. 1.0 kPa (kiloPascal) equals 0.145 psi. 2. Device is ratiometric within this specified excitation range. Operating the device above the specified excitation range may induce additional error due to device self-heating. 3. 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. 4. Offset (VOFF) is defined as the output voltage at the minimum rated pressure. 5. 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. 6. Warm-up Time is defined as the time required for the product to meet the specified output voltage after the pressure is stabilized. 7. Offset stability is the product's output deviation when subjected to 1000 hours of Pulsed Pressure, Temperature Cycling with Bias Test. MPX10 2 Sensors Freescale Semiconductor Pressure Maximum Ratings Table 2. Maximum Ratings(1) Rating Maximum Pressure (P1 > P2) Burst Pressure (P1 > P2) Storage Temperature Operating Temperature Symbol PMAX PBURST TSTG TA Value 75 100 -40 to +125 -40 to +125 Unit kPa kPa C C 1. Exposure beyond the specified limits may cause permanent damage or degradation to the device. Figure 1 shows a schematic of the internal circuitry on the stand-alone pressure sensor chip. 3 +VS 2 Sensing Element 4 +VOUT -VOUT 1 GND Figure 1. Uncompensated Pressure Sensor Schematic Voltage Output versus Applied Differential Pressure The output voltage of the differential or gauge sensor increases with increasing pressure applied to the pressure side (P1) relative to the vacuum side (P2). Similarly, output voltage increases as increasing vacuum is applied to the vacuum side (P2) relative to the pressure side (P1). MPX10 Sensors Freescale Semiconductor 3 Pressure Temperature Compensation Figure 2 shows the typical output characteristics of the MPX10 series over temperature. Because this strain gauge is an integral part of the silicon diaphragm, there are no temperature effects due to differences in the thermal expansion of the strain gauge and the diaphragm, as are often encountered in bonded strain gauge pressure sensors. However, the properties of the strain gauge itself are temperature dependent, requiring that the device be temperature compensated if it is to be used over an extensive temperature range. Temperature compensation and offset calibration can be achieved rather simply with additional resistive components, or by designing your system using the MPX2010D series sensor. LINEARITY Linearity refers to how well a transducer's output follows the equation: Vout = Voff + sensitivity x P over the operating pressure range (Figure 3). There are two basic methods for calculating nonlinearity: 1) end point straight line fit or 2) a least squares best line fit. While a least squares fit gives the 80 70 60 Output (mVdc) 50 40 30 20 10 0 PSI 0 kPa 0.3 2.0 0.6 4.0 0.9 6.0 1.2 8.0 10 1.5 Offset (Typ) +125C Span Range (Typ) MPX10 VS = 3 VDC P1 > P2 +25C "best case" linearity error (lower numerical value), the calculations required are burdensome. Conversely, an end point fit will give the "worst case" error (often more desirable in error budget calculations) and the calculations are more straightforward for the user. Freescale's specified pressure sensor linearities are based on the end point straight line method measured at the midrange pressure. Figure 4 illustrates the differential or gauge configuration in the basic chip carrier (Case 344). A silicone gel isolates the die surface and wire bonds from the environment, while allowing the pressure signal to be transmitted to the silicon diaphragm. The MPX10 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.Refer to application note AN3728, for more information regarding media compatibility. -40C Pressure Differential Figure 2. Output vs. Pressure Differential 70 60 50 Output (mVdc) 40 30 20 10 0 0 Offset (VOFF) Pressure (kPa) Max POP Lead Frame P2 RTV Die Bond Theoretical Actual Linearity Silicone Die Coat Wire Bond Stainless Steel Metal Cover P1 Epoxy Case Span (VFSS) Die Figure 3. Linearity Specification Comparison Figure 4. Unibody Package -- Cross-Sectional Diagram (Not to Scale) MPX10 4 Sensors Freescale Semiconductor Pressure 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 silicone gel which isolates the die from the environment. The pressure sensor is designed to operate with positive differential pressure applied, P1 > P2. The Pressure (P1) side may be identified by using the following table. Part Number MPX10D MPX10DP MPX10GP MPXV10GC6U MPXV10GC7U Case Type 344 344C 344B 482A 482C Pressure (P1) Side Identifier Stainless Steel Cap Side with Part Marking Side with Port Attached Side with Port Attached Side with Port Attached MPX10 Sensors Freescale Semiconductor 5 Pressure PACKAGE DIMENSIONS C R M 1 B -AN PIN 1 1234 2 3 4 Z NOTES: 1. DIMENSIONING AND TOLERANCING PER ASME Y14.5M, 1994. 2. CONTROLLING DIMENSION: INCH. 3. DIMENSION -A- IS INCLUSIVE OF THE MOLD STOP RING. MOLD STOP RING NOT TO EXCEED 16.00 (0.630). DIM A B C D F G J L M N R Y Z INCHES MILLIMETERS MIN MAX MIN MAX 0.595 0.630 15.11 16.00 0.514 0.534 13.06 13.56 0.200 0.220 5.08 5.59 0.016 0.020 0.41 0.51 0.048 0.064 1.22 1.63 0.100 BSC 2.54 BSC 0.014 0.016 0.36 0.40 0.695 0.725 17.65 18.42 30 NOM 30 NOM 0.475 0.495 12.07 12.57 0.430 0.450 10.92 11.43 0.048 0.052 1.22 1.32 0.106 0.118 2.68 3.00 L -TJ SEATING PLANE G F M F Y D 4 PL 0.136 (0.005) TA M DAMBAR TRIM ZONE: THIS IS INCLUDED WITHIN DIM. "F" 8 PL STYLE 1: PIN 1. 2. 3. 4. GROUND + OUTPUT + SUPPLY - OUTPUT STYLE 2: PIN 1. 2. 3. 4. VCC - SUPPLY + SUPPLY GROUND STYLE 3: PIN 1. 2. 3. 4. GND -VOUT VS +VOUT CASE 344-15 ISSUE AA UNIBODY PACKAGE SEATING PLANE -TR H N PORT #1 POSITIVE PRESSURE (P1) -AU L NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: INCH. DIM A B C D F G H J K L N P Q R S U INCHES MILLIMETERS MIN MAX MIN MAX 1.145 1.175 29.08 29.85 0.685 0.715 17.40 18.16 0.305 0.325 7.75 8.26 0.016 0.020 0.41 0.51 0.048 0.064 1.22 1.63 0.100 BSC 2.54 BSC 0.182 0.194 4.62 4.93 0.014 0.016 0.36 0.41 0.695 0.725 17.65 18.42 0.290 0.300 7.37 7.62 0.420 0.440 10.67 11.18 0.153 0.159 3.89 4.04 0.153 0.159 3.89 4.04 0.230 0.250 5.84 6.35 0.220 0.240 5.59 6.10 0.910 BSC 23.11 BSC -Q- B 12 34 PIN 1 K S -P0.25 (0.010) J C M TQ S F G D 4 PL 0.13 (0.005) M TS S Q S STYLE 1: PIN 1. GROUND 2. + OUTPUT 3. + SUPPLY 4. - OUTPUT CASE 344B-01 ISSUE B UNIBODY PACKAGE MPX10 6 Sensors Freescale Semiconductor Pressure PACKAGE DIMENSIONS V R PORT #2 PORT #1 -AU W H N PORT #2 VACUUM (P2) L NOTES: 1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982. 2. CONTROLLING DIMENSION: INCH. DIM A B C D F G H J K L N P Q R S U V W INCHES MILLIMETERS MIN MAX MIN MAX 1.145 1.175 29.08 29.85 0.685 0.715 17.40 18.16 0.405 0.435 10.29 11.05 0.016 0.020 0.41 0.51 0.048 0.064 1.22 1.63 0.100 BSC 2.54 BSC 0.182 0.194 4.62 4.93 0.014 0.016 0.36 0.41 0.695 0.725 17.65 18.42 0.290 0.300 7.37 7.62 0.420 0.440 10.67 11.18 0.153 0.159 3.89 4.04 0.153 0.159 3.89 4.04 0.063 0.083 1.60 2.11 0.220 0.240 5.59 6.10 0.910 BSC 23.11 BSC 0.248 0.278 6.30 7.06 0.310 0.330 7.87 8.38 PORT #1 POSITIVE PRESSURE (P1) -QSEATING PLANE B SEATING PLANE PIN 1 1234 -P-TJ C -T0.25 (0.010) M K S TQ S F G D 4 PL 0.13 (0.005) M TS S Q S STYLE 1: PIN 1. 2. 3. 4. GROUND + OUTPUT + SUPPLY - OUTPUT CASE 344C-01 ISSUE B UNIBODY PACKAGE CASE 482A-01 ISSUE A SMALL OUTLINE PACKAGE MPX10 Sensors Freescale Semiconductor 7 Pressure PACKAGE DIMENSIONS CASE 482C-03 ISSUE B SMALL OUTLINE PACKAGE MPX10 8 Sensors Freescale Semiconductor How to Reach Us: Home Page: www.freescale.com Web Support: http://www.freescale.com/support USA/Europe or Locations Not Listed: Freescale Semiconductor, Inc. Technical Information Center, EL516 2100 East Elliot Road Tempe, Arizona 85284 1-800-521-6274 or +1-480-768-2130 www.freescale.com/support Europe, Middle East, and Africa: Freescale Halbleiter Deutschland GmbH Technical Information Center Schatzbogen 7 81829 Muenchen, Germany +44 1296 380 456 (English) +46 8 52200080 (English) +49 89 92103 559 (German) +33 1 69 35 48 48 (French) www.freescale.com/support Japan: Freescale Semiconductor Japan Ltd. Headquarters ARCO Tower 15F 1-8-1, Shimo-Meguro, Meguro-ku, Tokyo 153-0064 Japan 0120 191014 or +81 3 5437 9125 support.japan@freescale.com Asia/Pacific: Freescale Semiconductor China Ltd. Exchange Building 23F No. 118 Jianguo Road Chaoyang District Beijing 100022 China +86 010 5879 8000 support.asia@freescale.com For Literature Requests Only: Freescale Semiconductor Literature Distribution Center P.O. Box 5405 Denver, Colorado 80217 1-800-441-2447 or +1-303-675-2140 Fax: +1-303-675-2150 LDCForFreescaleSemiconductor@hibbertgroup.com Information in this document is provided solely to enable system and software implementers to use Freescale Semiconductor products. There are no express or implied copyright licenses granted hereunder to design or fabricate any integrated circuits or integrated circuits based on the information in this document. Freescale Semiconductor reserves the right to make changes without further notice to any products herein. Freescale Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Freescale Semiconductor 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 Semiconductor 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. Freescale Semiconductor does not convey any license under its patent rights nor the rights of others. Freescale Semiconductor products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Freescale Semiconductor product could create a situation where personal injury or death may occur. Should Buyer purchase or use Freescale Semiconductor products for any such unintended or unauthorized application, Buyer shall indemnify and hold Freescale Semiconductor and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that Freescale Semiconductor was negligent regarding the design or manufacture of the part. FreescaleTM and the Freescale logo are trademarks of Freescale Semiconductor, Inc. All other product or service names are the property of their respective owners. (c) Freescale Semiconductor, Inc. 2008. All rights reserved. MPX10 Rev. 13 09/2008 |
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