QM1H0P0073

DATE PREPARED BY: SPEC NO. NW-D004 ISSUE April. 9, 2015 FILE NO. ELECTRONIC COMPONENTS AND DEVICES GROUP SHARP CORPORATION DATE CHECKED BY: DATE APPROVED BY: SPECIFICATION PAGE 1/27 REPRESENTATIVE DIVISION SYSTEM DEVICE UNIT REFERENCE DEVICE SPECIFICATION FOR Relative Humidity & Temperature Sensor MODEL No. QM1H0P0073 CUSTOMER’S APPROVAL DATE PRESENTED BY BY Hiroaki Fujino UNIT DEPUTY GENERAL MANAGER & DEPARTMENT GENERAL MANAGER DEVELOPMENT DEPT.V SYSTEM DEVICE UNIT ELECTRONIC COMPONENTS AND DEVICES DIVISION SHARP CONFIDENTIAL AND PROPRIETARY MODEL No. PAGE QM1H0P0073 DOC. FIRST 2/27 ISSUE 2014/06/19 RECORD OF REVISION IDENT. DATA No. DATE REF.PAGE PARAGRAPH REVISED SUMMARY NO. CHECK & DRAWING No. APPROVAL June 19, 2014 - - Initial release August 8, 2014 p.8 A - Modified storage temperature of “Absolute Maximum Ratings” p.9 - Updated max. value and graph of relative humidity sensor accuracy p.16 - Modified rehydration conditions after p.19 soldering - Modified rehydration procedure on "Exposure p.21-25 to extreme environment" - Updated Section12 "Tape and Reel p.26 Specifications" - Modified "Recommended storage conditions p.27 after opening" - Added Section14 "Compliance with regulations on chemical substances" September 18, p.9 - Corrected conditions of relative humidity 2014 B sensor accuracy - Modified Common difference December 12, p.17 2014 p.19 - Modified Baking time p.22-24 - Modified Reel & Packing Forms SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 3/27 Important Notices These specification sheets include materials protected under copyright of Sharp Corporation ("Sharp").Please do not reproduce or cause anyone to reproduce them without Sharp's consent. When using this product, please observe the absolute maximum ratings and the instructions for use outlined in these specification sheets, as well as the precautions mentioned below.Sharp assumes no responsibility for any damage resulting from use of the product which does not comply with the absolute maximum ratings and the instructions included in these specification sheets, and the precautions mentioned below. (Precautions) 1. Please do verify the validity of this part after assembling it in customer’s products, when customer wants to make catalogue and instruction manual based on the specification sheet of this part. 2. This product is designed for use in the following application areas ; · Personal computers · Office automation equipment · Telecommunication equipment(Terminal) · Industrial control · Test and measurement equipment · Audio visual equipment · Consumer electronics If the use of the product in the above application areas is for equipment listed in paragraphs3 or 4, please be sure to observe the precautions given in those respective paragraphs. 3. Appropriate measures, such as fail-safe design and redundant design considering the safety design of the overall system and equipment, should be taken to ensure reliability and safety when this product is used for equipment which demands high reliability and safety in function and precision, such as ; · Transportation control and safety equipment (aircraft, train, automobile etc.) · Traffic signals · Gas leakage sensor breakers · Rescue and security equipment · Other safety equipment 4. Please do not use this product for equipment which require extremely high reliability and safety in function and precision, such as ; · Space equipment · Telecommunication equipment (for trunk lines) · Nuclear power control equipment · Medical equipment 5. Please contact and consult with a Sharp sales representative if four are any questions regarding interpretation of the above four paragraphs. Please contact and consult with a Sharp sales representative for any questions about this product. SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 4/27 Contents 1. Description ............................................................................................................. 5 2. Block Diagram ........................................................................................................ 6 3. Pin Configuration .................................................................................................... 7 4. Electrical Characteristics ....................................................................................... 8 5. Operation .............................................................................................................. 11 6. Application Circuit Example ................................................................................. 14 7. Soldering Conditions ............................................................................................ 15 8. Package Outline .................................................................................................... 17 9. PCB Land Pattern ................................................................................................. 18 10. Marking ............................................................................................................... 18 11. Precaution for use .............................................................................................. 19 12. Tape and Reel Specifications ............................................................................. 21 13. Storage Conditions ............................................................................................. 26 14. Compliance with Regulations on chemical substances .................................... 27 SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 5/27 1. Description QM1H0P0073 is a digital output relative humidity/temperature sensor. In addition to electrostatic capacitance type humidity sensor and temperature sensor elements, an analog-to-digital converter, signal processing unit, data storage for calibration data, and an interface circuit are integrated into 1 package. The device features wide operating range, small in size, high resolution and high response speed, and is suitable for use in a wide range of applications. Both the temperature and humidity sensors are factory-calibrated and no any further calibration is required after installing on electronic equipments. Features High precision - Relative humidity: ±2%RH (typ.) - Temperature: ±0.3°C (typ.) Wide operating range - Relative humidity: 0 to 100%RH - Temperature: -20 to 85°C - Operating voltage: 2.7 to 5.5V Low power consumption - 3.0uA (max) non-operation current I 2 C digital interface Small, Low profile QFN 16pin package - footprint: 3mm × 3mm - Industry-leading levels of height: 0.8mm Factory calibrated RoHS Compliant SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 6/27 2. Block Diagram NC NC NC NC CLK VDD VCORE /Reset EEPROM GND Temperature SDA sensor Analog Humidity Reserved2 I/F DSP ADC front-end sensor SCL element ROM Reserved3 Reserved1 Analog Core Reserved4 NC Digital Core NC NC SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 7/27 3. Pin Configuration 13 8 14 7 15 6 16 5 NC 9 NC 10 NC 11 NC 12 9 10 11 12 8 13 VDD SDA 7 14 VSS SCL 6 15 Reserved2 5 16 Reserved3 VCORE Reserved1 4 TOP VIEW (Not to scale) 1 Reserved4 3 2 NC 2 NC 1 3 NC 4 BOTTOM VIEW (Not to scale) Pin 1 2 3 4 5 6 7 Pin Name Reserved4 NC NC NC Reserved1 SCL SDA Type I I/O Function Test Terminal Not Connected Not Connected Not Connected Test Terminal 2 I C Serial Clock I 2 C Serial Data 8 VCORE Power Core voltage: Decoupling input for internal circuitry. 9 10 11 12 13 14 15 16 NC NC NC NC VDD VSS Reserved2 Reserved3 Power Power - Not Connected Not Connected Not Connected Not Connected Power Supply GND Test Terminal Test Terminal Remarks Leave Open Leave Open Leave Open Leave Open Leave Open Always connect to an external capacitor(0.1uF) to GND. Leave Open Leave Open Leave Open Leave Open Leave Open Leave Open SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 8/27 4. Electrical Characteristics Absolute Maximum Ratings Parameter Symbol Ratings Unit VDD to GND - -0.3 to 6.0 V SDA/SCL to GND - -0.3 to VDD+0.3 V Storage Temperature - -40 to 140 °C Remarks Note that operation of the device at these conditions is not implied and may affect the performance, reliability or life of the device. This product is ESD sensitive. In order to prevent deterioration or damage due to ESD, this product must be protected against static electricity at all times. Recommended Operating Conditions Max Unit 2.7 5.5 V TA -20 85 °C I 2 C Pull-Up Register RP 1 2.2 External Capacitance between VCORE and GND C VCORE 0.09 0.1 Parameter Symbol Min VDD Ambient Temperature Power Supply Typ. Remarks kΩ 0.33 μF Must be connected between VCORE and GND DC Electrical Characteristics (Conditions at V DD =3V or 5V, T A =25°C unless otherwise noted.) Parameter Symbol Conditions Min. Typ. Max. Unit - 750 1,100 μA - 1 3 μA Operation Current I DD Non-operation Current I NOP Power-on-Reset Level V POR 1.6 1.7 1.75 V Output Low Voltage V OL - - 0.2 V DD Output Current I OL 1.5 - - mA Input Low Voltage V IL - - 0.2 V DD Input High Voltage V IH 0.8 - - V DD Input Current I IL 10 μA -20 to 85°C SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 9/27 Relative Humidity Sensor (Conditions at V DD =3V, TA =25°C unless otherwise noted.) Parameter Symbol Conditions Min. Typ. Max. Unit 30 to 80%RH - ±2 ±5 %RH Accuracy 1,2 See figure 0 to 100%RH “Relative humidity sensor accuracy” below %RH Resolution - 0.1 - %RH Hysteresis - ±1 - %RH Repeatability - 0.1 - %RH - 7 - sec 0 - 100 %RH Response Time 3 1m/s air flow Operating Range 4 Notes 1: Applicable to non-condensing environments only. Excludes hysteresis and certain other factors. 2: Recommended humidity operating range is 20 to 80%RH (non-condensing) over 0 to 60°C. Prolonged operation beyond these ranges may result in a shift of sensor reading. 3: Time to reach 63% of a step change. 4: Applicable to non-condensing environments only. Temperature Sensor (Conditions at V DD =3V, TA =25°C unless otherwise noted.) Parameter Symbol Conditions Min. Typ. Max. Unit Typical at 25°C - ±0.3 ±0.6 °C Accuracy See figure -20 to 85°C °C “Temperature sensor accuracy” below Resolution - 0.015 - °C Repeatability - 0.1 - °C -20 - 85 °C Operating Range Temperature Accuracy Relative Humidity Accuracy 2 Max. Error 10 1.8 Temperature Error [±℃ ] Relative Humidity Error [±%RH] 12 Typ.Error 8 6 4 2 1.6 Max. Error 1.4 Typ. Error 1.2 1 0.8 0.6 0.4 0.2 0 0 0 10 20 30 40 50 60 70 80 90 Relative Humidity [%RH] [ Relative humidity sensor accuracy (T A =25°C) ] 100 -20 -10 0 10 20 30 40 50 60 70 80 90 Temperature [℃ ] [ Temperature sensor accuracy ] SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 10/27 AC Characteristics Symbol Min Typ Max Unit f SCL 100 - 400 kHz t HDSTA 0.1 - - μs Minimum SCL clock low width t LOW 0.6 - - μs Minimum SCL clock high width t HIGH 0.6 - - μs Start condition setup time relative to SCL edge t SUSTA 0.1 - - μs Data hold time on SDA relative to SCL edge t HDDAT 0 - 0.5 μs Data setup time on SDA relative to SCL edge t SUDAT 0.1 - - μs Stop condition setup time on SCL t SUSTO 0.1 - - μs t BUS 1 - - μs Parameter SCL clock Frequency Start Condition hold time relative to SCL edge Bus free time between stop condition and start condition Note) For more information on I2C specification, please refer to the following Website: http://www.nxp.com/documents/other/UM10204_v5.pdf SDA tSUDAT tLOW tBUS tHDSTA SCL tHDSTA tHDDAT tHIGH tSUSTO tSUSTA I2C Timing Diagram SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 11/27 5. Operation I 2 C Interface This product communicates with I2C-compatible protocol with support for 100kHz and 400kHz bit rates. All sensors are set to the same I2C slave address (28H). Note) For more information on I 2 C specification, please refer to the following Website: http://www.nxp.com/documents/other/UM10204_v5.pdf The overview of the measurement sequence is as follows: 0.1ms 15ms 40ms 40ms Device Internal Activity Power on Reset ▲ Power applied to device - Temperature conversion - Temperature calculation - Humidity conversion - Humidity calculation WAKEUP [Measurement Cycle] Power Down [Measurement Cycle] - Temperature conversion - Temperature calculation - Humidity conversion - Humidity calculation ▼ Write initial measurement data to output register I2C Bus Activity Data Fetch Power Down ▼ Write measurement data to output register Measurement Request Data Fetch [ I 2 C Measurement Sequence ] I 2 C-BUS is a bi-directional 2-wire serial bus, consists of serial data line (SDA) and serial data clock (SCL). When the bus is free, both SDA and SCL are HIGH. Each communication sequence begins with a Start Condition, and ends with a Stop Condition. A Start Condition is defined as a HIGH to LOW transition on the SDA line while SCL is HIGH. A Stop Condition is defined as a LOW to HIGH transition on the SDA line while SCL is HIGH. Between the Start and Stop conditions, the data on the SDA can change when SCL is LOW and the data is fetched during SCL is HIGH. Each data bit is transferred by one clock pulse of SCL. SDA SCL Start condition Stop condition [ I 2 C Start/Stop Condition ] SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 12/27 Startup Through the system power-on reset (POR) after power-up, the sensor will perform an initial measurement cycle. This initial measurement data is written to the output register. The sensor needs at most 55ms to be ready for fetching data. SCL keeps HIGH during this period. 15ms 40ms [Measurement Cycle] Device Internal Activity Power on Reset ▲ Power applied to device - Temperature conversion - Temperature calculation - Humidity conversion - Humidity calculation ▼ Write initial measurement data to output register [ Power-On sequence ] Data Fetch The Data Fetch (DF) command is used to fetch humidity and temperature measurement data from the output register. The master issues a Start Condition, followed by the 7-bit slave address 28H ('010'1000') and the 8th bit=1 (Read). The sensor sends an acknowledge (ACK) when receiving the command from the master properly. The 14 bits of humidity data are fetched in the first two bytes. The higher 2 bits of the first byte are the status bits. After the humidity data, the 14 bits of temperature data can be fetched. The last two bits of the fourth byte are undetermined and should be masked off in the application. [ I 2 C slave address ] A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 ■ I2C Data Fetch - 2 Bytes: Slave returns only 2 humidity data bytes to master Start Condition Wait for Slave ACK Stop Condition S 6 5 4 3 2 1 0 R A 15 14 13 12 11 10 9 8 A 7 6 5 4 3 2 1 0 N S Device Slave Address [6:0] Humidity Data [13:8] Read/Write Status Bit (Read = 1) Master ACK Humidity Data [7:0] Master NACK ■ I2C Data Fetch - 4 Bytes: Slave returns 2 humidity data bytes & 2 temperature data bytes to master Start Condition Wait for Slave ACK Stop Condition S 6 5 4 3 2 1 0 R A 15 14 13 12 11 10 9 8 A 7 6 5 4 3 2 1 0 A 13 12 11 10 9 8 7 6 A 5 4 3 2 1 0 X X N S Device Slave Address [6:0] Humidity Data [13:8] Read/Write (Read = 1) Status Bit Master ACK Humidity Data [7:0] Temperature Data [13:6] Master ACK Temperature Data [5:0] Master NACK Master ACK Undefined Bit (Should be masked) [ I2C Data Fetch Command ] SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 13/27 Measurement Request After the measurement cycle, the sensor goes to power down to suppress power consumption. To wake up the part from power down and start a new measurement cycle, the master sends an MR (Measurement Request) command. The master issues a Start Condition, followed by the 7-bit slave address 28H('010'1000') and the 8th bit=0(Write). When receiving the command from the master properly, the sensor sends an acknowledge (ACK) by lowering SDA automatically. Then the master sends a Stop Condition. When a MR is received properly, the part wakes up with a small period and then a new measurement cycle is performed. Another MR can be sent to start a new measurement cycle without fetching the previous data. Wait for Slave ACK Start Condition S 6 5 4 3 2 1 0 W A S Device Slave Address [6:0] Stop Condition Read/Write (Write = 0) [ I 2 C Measurement Request: slave starts a measurement cycle ] Output Data Conversion [Relative Humidity Conversion] The Humidity Data bytes (14 bits raw value) can be converted to %RH using the following equation: Relative Humidity[%RH] = Humidity Data[13: 0] × 100 2 [Temperature Conversion] The Temperature Data bytes (14 bits raw value) can be converted to °C using the following equation: Temperature[°C] = Temperature Data[13: 0] × 165 − 40 2 SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 14/27 6. Application Circuit Example The following shows the application circuit example. Both SDA and SCL are connected to VDD via pull-up resisters R P . When the bus is free, both lines are HIGH. The values of the pull-up resisters are determined in consideration of the capacitance of the I 2 C bus lines. Note that I 2 C pull-up resisters may be integrated in I/O of MCUs. Be sure to connect C VCORE with appropriate value between VCORE terminal and GND. If C VCORE is not connected, or if the value is not appropriate, it may affects the measurement accuracy of temeperature and relative humidity. In order to stably operate this product, C VDD and C VCORE should be as close to this device as possible. VDD = 2.7 to 5.5V 2.2kΩ RP 0.1uF C VDD 2.2kΩ RP VDD C VCORE VDD VCORE VSS SDA SDA SCL SCL 0.1uF QM1H0P0073 MCU VSS SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 15/27 7. Soldering Conditions Soldering methods and suitability of this product Soldering methods Reflow soldering Suitability ○ Flow(dip, wave) soldering Hand soldering by soldering iron × × Not suitable for this product Not suitable for this product Hot plate Soldering ○ Reflow Soldering The following conditions are recommended for reflow soldering this product by lead-free solder. Parameter Type of process Atmosphere Number of reflow cycle Recommended Condition Convection or IR/Convection reflow Air or Nitrogen 1time only Peak Temperature 245±5°C 5 sec. (max.) Package Surface Ramp-Up Rate Ramp-Down Rate 1 to 4°C/sec. 3 to 6°C/sec. Reflow 220°C or above Preheat 20 to 50sec. 150 to 190°C 90±30sec. Time Reflow Profile for Lead-free Hot Plate Soldering Recommended hot plate soldering conditions is as follows : Parameter PCB surface temperature Soldering time Recommended Condition < 250°C < 5 sec. SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 16/27 Rework Hot air reworking is not recommended as the hot air may cause irreversible damage for humidity sensor elements. Removed device should not be reused because of the possibility of thermal and mechanical damage in rework. Notice of soldering Only one reflow process is allowed for this product. In case the PCB passes through multiple solder cycles, it is strongly recommended to assemble this product only in the last solder cycle. Ensure good ventilation in assembly lines. If any volatile gas exists, it may cause damage to this product. If possible, it is recommended to mount this product after all materials that are used in the assembly process have completely cured or dried out. After soldering, the devices may read a slight offset. In this case, the rehydration process under the following conditions may eliminate the offset. Rehydration conditions: Store the devices at 85 °C /85%RH for 2 hours Note: Be sure to observe the storing time (2 hours) Keep the opening of humidity sensors clean and undamaged. Do not wash the PCB after reflow soldering or hand soldering. It may affect the accuracy of humidity sensors. “No clean” type solder paste is strongly recommended. Contamination of the humidity sensor element by flux shall be avoided. Liquid flux is not recommended. SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 17/27 8. Package Outline All dimensions in units of [mm] Product mass : 0.013±0.005g SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 18/27 9. PCB Land Pattern All dimensions in units of [mm] 10. Marking Symbol Name Y Last one digit of the year WW Week NN Assembly lot A Product name Remarks 1 digit number Y=”0” to “9” 2 digit number WW=”00” to “53” 2 digit number NN=”00” to “99” 1 alphabetic digit A=“1” : QM1H0P0073 BOTTOM VIEW (Not to scale) SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 19/27 11. Precaution for Use Effect of temperature Since the relative humidity strongly depends on temperature, be careful of the following points: Keep the temperature of humidity sensors same as temperature of the air which is measurement subject of relative humidity. If this product is mounted close to the heating component, it should be considered to prevent heat transfer or to keep it as low as possible. Exposure to chemicals Exposure to the following chemicals may cause irreversible effects. Avoid exposure to such chemicals and provide sufficient ventilation. Volatile chemicals Example: Acetone, Ethanol, Isopropyl Alcohol, Toluene, etc. These volatile chemicals also exist in epoxy compounds, adhesives, adhesive tapes, etc, and may be emitted as outgas component. Acids and bases Example: HCl, H 2SO 4, HNO 3 , NH 3 , etc. High concentration Ozone or H 2 O 2 Cleaning agents Example: Alcohol, detergents, brominated/fluorinated solvents, etc Do not apply PCB board wash after soldering. Exposure to extreme environment Prolonged exposure to very low/high humidity environment may cause gradual shifts of the relative humidity reading and errors may increase. In order to eliminate these errors, the following procedure is useful. [ In case of very low humidity ] The performance of the humidity sensor can be recovered after a few days under typical ambient conditions(40 - 60%RH). [ In case of very high humidity ] Compared with exposure to very low humidity, recovery of sensor performance may be slower. In this case, the following bake and rehydration procedure can accelerate recovery. Baking: 140°C for 48 hours Rehydration: 27 °C /75%RH for 24 hours Following this procedure, the performance of the humidity sensor will recover after a few days under typical ambient conditions. Note that the sensor read value may drift due to aging of the device for a long period of time. Specifications of relative humidity sensor accuracy do not include the effect of aging, contamination and exposure to extreme environment conditions. SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 20/27 Packing material Because both sensors as a part and sensors mounted on the final product need to avoid contamination by outgas emitted from packing materials, careful attention must be paid in the selection of the packaging materials. Avoid using adhesives, adhesive tapes and stickers as much as possible. Do not use antistatic polyethylene bags. Be very careful to use foamed plastics. Hygroscopic material Since hot melts may absorb moisture and affect the response time of the relative humidity sensor, using hot melt sparingly is recommended. Protection of the sensor opening Avoid adhering contaminants (e.g. liquids (especially salt water), solvents, fats, dust, etc.) so as not to affect sensor performance. Care must also be taken to the following points for protection of the sensor opening. Do not cover the sensor opening by any adhesive tapes (e.g. Scotch Tape, Sellotape, etc.) which may affect sensor performance by outgas. Avoid covering the sensor opening with coatings. Do not directly touch the sensor opening. Others T his product is NOT intended for use in the following special environments, such as: - U se in liquids such as water, oil, chemical, and organic solvent. - U se under direct sunlight, in outdoor, heat and dusty atmospheres. - U se in places full of corrosive gases such as sea breeze, SO 2 , H 2 S, Cl 2 , NH 3 ,acid, and alkali. - U se in environment with strong electromagnetic waves or large static electricity. - Use in such a place where the product is condensation or freezing. This product is not designed to be radiation-resistant. SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 21/27 12. Tape and Reel Specifications Packing unit Item Packing unit Emboss tape 1,500pcs Inner packing case 1reel (1,500pcs) Outer packing case 5reels (7,500pcs) Packing parts Emboss carrier tape Reel Cover tape Label Inner packing case Aluminum laminated bag Label Outer packing case Label Remarks Printed with a logotype Plain Plain Printed with a logotype Printed with a logotype Printed with a logotype Tape structure and dimensions Index Dimensions A 3.3±0.1 B 3.3±0.1 D0 φ1.5 +0.1/-0 D1 φ1.5 +0.1/-0 E 1.75±0.1 F 5.5±0.05 P0 4.0±0.1 P1 8.0±0.1 P2 2.0±0.05 T 0.3±0.05 T2 0.9±0.05 W 12.0 +0.3/-0.1 All dimensions in units of [mm] 1pin orientation in tape User direction of feed SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 22/27 Reel structure and dimensions Index A B C D E W W1 All dimensions Dimensions φ180 +0/-3 φ60 +1/-0 φ13±0.3 φ21±0.8 2.0±0.5 13.0 ±0.3 1.5 in units of [mm] Tape Leader/Trailer Specification SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 23/27 Peeling strength of the top covering tape Peeling strength meets the following conditions. Peeling angle：165～180° Peeling speed：300mm/min Peeling strength：0.2～0.7N Packing Forms Aluminum laminated bag Index W D Dimensions 260 260 Values in [mm] Inner packing case Index W D H Dimensions 268 262 30 Values in [mm] Index W D H Dimensions 291 281 185 Values in [mm] Outer packing case SHARP CONFIDENTIAL AND PROPRIETARY Store in inner packing case Model No SPEC No. QM1H0P0073 NW-D004 24/27 Store in outer packing case SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 25/27 Label Specifications (b) (a) (c) (d) (e) (f) (g) (h) (i) (j) (k) Inner label / label on reel (common) (a) (b) (c) (d) (e) (f) Model No. Model No. (3N)1, Model No., Packing quantity (3N)2, QC Lot, Company code Packing quantity Packing date (g) (h) (i) (j) (k) Company name (NOT SHARP Logo) Country of origin R.C. Logo（indicates RoHS compliant） Bar Code Type（EIAJ C-3 compliant） Label number (A) (B) (E) (F) (C) (G) (D) (H) (I) Outer label (A) (B) (C) (D) (E) (4S), Package ID（same as Model No.） (Q), Packing quantity (P)・Model No. QC Lot Country of origin (F) (G) (H) (I) SHARP internal part No. Packing date Company name (NOT SHARP Logo) R.C. Logo（indicates RoHS compliant） Traceability is controlled by marking on each product and label on reel. SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 26/27 13. Storage Conditions Store this product under the following temperature and relative humidity conditions. Avoid condensation, direct sunlight, heat, sea breeze and corrosive chemicals (SO2, H2S, Cl2, acids, alkalies, NH3, etc.) and keep free from dust. Recommended storage conditions before opening Temperature Relative Humidity 5 to 40°C 20 to 60 %RH Storage Period < 1 year Recommended storage conditions after opening Temperature Relative Humidity 5 to 30°C 40 to 70 %RH Storage Period < 168 hours Notes: Storage conditions after opening the packing is equivalent to MSL=3. Significant drying of relative humidity sensor element caused by prolonged exposure to high temperature, etc. may increase error of relative humidity readout value, so only one reflow process is allowed for this product after opening the packing. Use this product within the specified period as above, and do not apply baking (desiccation) process. Notice on opening the packing Open the packing on the anti-static work bench with taking measures against static electricity to a worker. Use the anti-static tray when transferring products from reel. To fix the trays, avoid using materials such as rubber bands that may generate corrosive gas. Using this product within one (1) year after delivery is recommended. After more than one year, check solderability of each terminal before use. SHARP CONFIDENTIAL AND PROPRIETARY Model No SPEC No. QM1H0P0073 NW-D004 27/27 14. Compliance with regulations on chemical substances RoHS Compliant This product does not contain any of the following substances restricted by the RoHS directive （2002/95/EC） Restricted substances: lead * , mercury, cadmium, hexavalent chromium, polybrominated biphenyl(PBB), polybrominated diphenyl ether(PBDE) *: Except lead in high melting temperature type solders (i.e. lead-based alloys containing 85% by weight or more lead) as RoHS exemption. ACPEIP Information (Administration on the Control of Pollution caused by Electronic Information Products, Chinese:电子信息产品污染控制管理办法) Toxic and hazardous substances Category Lead (Pb) Mercury (Hg) Cadmium (Cd) Hexavalent chromium (Cr 6+ ) Polybrominated biphenyls (PBB) Polybrominated diphenyl ethers (PBDE) Temperature/ ✓ ✓ ✓ ✓ ✓ ✓ Relative Humidity Sensor NOTE: ✓ indicates that the content of the toxic and hazardous substance in all the homogeneous materials of the part is below the concentration limit requirement as described in SJ/T 11363-2006 standard. Specific brominated flame retardants This product is free of specific brominated flame retardants(Polybrominated biphenyl(PBB), Polybrominated diphenyl ether(PBDE)). Ozone depleting chemicals(ODCs) This product does not contain any of the following ozone depleting chemicals (ODCs), and no ODCs are used in any manufacturing processes. Restricted substances: CFCs (Chloro-fluoric Carbons), halon, carbon tetrachloride, 1-1-1 trichloroethane (methylchloroform) SHARP CONFIDENTIAL AND PROPRIETARY