BU6823G-TR

Datasheet For Fan Motor Driver Fractional Pulse Rate Converter (Conversion Ratio, 21:12) BU6823G General Description Key Specifications This IC converts the input clock signal by 12/21 ratio and output it. It is the best when need to output the FG signal equivalent to the 8-pole motor when using the 14-pole motor with the FG signal generated from the Hall sensor signals. ◼ Input Frequency Range: ◼ Driver Output Current: ◼ Maximum Junction Temperature: W(Typ) x D(Typ) x H(Max) Package Features ◼ ◼ ◼ ◼ SSOP5 5V Power Supply Conversion Ratio, 21:12 Input Frequency Range: 5 Hz to 5 kHz Small Package, SSOP5 5 Hz to 5 kHz ±5 mA (Max) +125 °C 2.90 mm x 2.80 mm x 1.25 mm Applications ◼ Air Conditioners, Air Purifiers, Water Pumps, Dishwashers and Washing Machines SSOP5 Typical Application Circuit VCC IN OUT Figure 1. Application Circuit Example 〇Product structure : Silicon monolithic integrated circuit www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 14 • 001 〇This product has no designed protection against radioactive rays 1/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Contents General Description ........................................................................................................................................................................ 1 Features.......................................................................................................................................................................................... 1 Applications .................................................................................................................................................................................... 1 Key Specifications .......................................................................................................................................................................... 1 Package .................................................................................................................................................................................. 1 Typical Application Circuit ............................................................................................................................................................... 1 Contents ......................................................................................................................................................................................... 2 Block Diagram and Pin Configuration ............................................................................................................................................. 3 Pin Description................................................................................................................................................................................ 3 Description of Blocks ...................................................................................................................................................................... 3 Absolute Maximum Ratings .......................................................................................................................................................... 4 Thermal Resistance ........................................................................................................................................................................ 4 Recommended Operating Conditions ........................................................................................................................................... 5 Electrical Characteristics................................................................................................................................................................. 5 Typical Performance Curves (Reference Data) .............................................................................................................................. 6 Timing Chart ................................................................................................................................................................................... 8 I/O Equivalence Circuits.................................................................................................................................................................. 8 Operational Notes ........................................................................................................................................................................... 9 Ordering Information ..................................................................................................................................................................... 10 Marking Diagram .......................................................................................................................................................................... 10 Physical Dimension and Packing Information ............................................................................................................................... 11 Revision History ............................................................................................................................................................................ 12 www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 2/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Block Diagram and Pin Configuration VCC 5 UVLO IN VCC GND (1) VREG OSC PULSE RATE CONVERTER LOGIC 4 1 GND (5) VCC GND (2) 3 OUT OUT (3) 2 Figure 2. Block Diagram (4) IN Figure 3. Pin Configuration (Top View) Pin Description Pin Name Function Pin Name 1 GND Ground 5 VCC 2 GND Ground - - 3 OUT Converted signal output 4 IN Function Power supply Signal input pin Description of Blocks 1. Pulse Rate Conversion Logic It divides the input clock signal by 12/21, and output the converted signal. Signal processing is performed with reference to the fall edge of the input signal. In addition, when the input signal frequency is out of range at signal conversion and it is judged to be too low frequency, the internal logic circuit outputs no conversion signal (pass through). On the other hand, when it is judged to be too high frequency, it outputs 35 kHz (Typ) signal. 2. Signal Input Pin The IN pin is pulled up to VCC internally by a 500 kΩ (Typ) resistor. When using in conjunction with the open-collector / drain output, the IN pin can be connected directly. 3. Signal Output Pin The OUT pin is CMOS output. When connecting to the base pin of a bipolar transistor, please do not exceed the rated current by taking countermeasure such as inserting a current limiting resistor. 4. Under Voltage Lock Out (UVLO) Circuit To secure the lowest power supply voltage necessary to operate the internal circuit, and to prevent under voltage malfunctions, an UVLO circuit is built into the internal circuit. When the power supply voltage falls to VUVL and below, the internal circuit forces output low. When the voltage rises to VUVH and above, the UVLO circuit ends the lock out operation and returns to normal operation. www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 3/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Absolute Maximum Ratings (Tj=25 °C) Parameter Symbol Rating Unit VCC 7.0(Note 1) V Supply Voltage Input Voltage VIN -0.3 to VCC V Maximum Input Frequency fINMAX 10 kHz Driver Outputs IOMAX ±5(Note 1) mA Storage Temperature Range Tstg -55 to +125 °C Tjmax 125 °C Maximum Junction Temperature (Note) All voltages are with respect to ground unless otherwise specified. (Note 1) Do not exceed ASO. Caution 1: Operating the IC over the absolute maximum ratings may damage the IC. The damage can either be a short circuit between pins or an open circuit between pins and the internal circuitry. Therefore, it is important to consider circuit protection measures, such as adding a fuse, in case the IC is operated over the absolute maximum ratings. Caution 2: Should by any chance the maximum junction temperature rating be exceeded the rise in temperature of the chip may result in deterioration of the properties of the chip. In case of exceeding this absolute maximum rating, design a PCB with thermal resistance taken into consideration by increasing board size and copper area so as not to exceed the maximum junction temperature rating. Thermal Resistance(Note 2) Parameter Symbol Thermal Resistance (Typ) Unit 1s(Note 4) 2s2p(Note 5) θJA 376.5 185.4 °C/W ΨJT 40 30 °C/W SSOP5 Junction to Ambient Junction to Top Characterization Parameter(Note 3) (Note 2) Based on JESD51-2A(Still-Air). (Note 3) The thermal characterization parameter to report the difference between junction temperature and the temperature at the top center of the outside surface of the component package. (Note 4) Using a PCB board based on JESD51-3. (Note 5) Using a PCB board based on JESD51-7. Layer Number of Measurement Board Single Material Board Size FR-4 114.3 mm x 76.2 mm x 1.57 mmt Top Copper Pattern Thickness Footprints and Traces 70 μm Layer Number of Measurement Board 4 Layers Material Board Size FR-4 114.3 mm x 76.2 mm x 1.6 mmt Top 2 Internal Layers Bottom Copper Pattern Thickness Copper Pattern Thickness Copper Pattern Thickness Footprints and Traces 70 μm 74.2 mm x 74.2 mm 35 μm 74.2 mm x 74.2 mm 70 μm www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 4/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Recommended Operating Conditions (Tj=25 °C) Parameter Supply Voltage Symbol Min Typ Max Unit V VCC 4.5 5.0 5.5 Junction Temperature Tj -40 - +110 °C Input Frequency Range fIN 5 - 5k Hz Input Signal Duty Range FDUTY 15 - 85 % (Note) All voltages are with respect to ground unless otherwise specified. Electrical Characteristics (Unless otherwise specified VCC=5 V and Tj=25 °C) Parameter Symbol Min Typ Max Unit Conditions ICCQ 0.3 0.46 1.0 mA VIN=0 V Input Bias Current IIN 6 10 15 µA VIN=0 V Input High Voltage VINH 2.0 - VCC V Input Low Voltage VINL 0 - 0.8 V Output High Voltage VOUTH VCC-0.40 VCC-0.08 VCC V IO=-2 mA Output Low Voltage VOUTL 0 0.02 0.30 V IO=2 mA Release Voltage VUVH 3.3 3.6 3.9 V Lockout Voltage VUVL 2.7 3.0 3.3 V Power Supply Quiescence Current Input Output Under Voltage Lock Out (Note) All voltages are with respect to ground unless otherwise specified. www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 5/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Typical Performance Curves (Reference Data) 1.0 Input Bias Current : IIN [µA] 0.8 Circuit Current : Icc [mA] 20 -40 °C +25 °C +110 °C 0.6 0.4 0.2 0 4.0 4.5 5.0 5.5 Supply Voltage : VCC [V] 15 10 5 0 6.0 +110 °C +25 °C -40 °C 0 Figure 4. Operating Current (IN = 1kHz) 1.5 +110 °C +25 °C -40 °C 1.0 0.5 0.0 -0.5 1 1.1 1.2 1.3 1.4 Input Voltage : VIN [V] 4 5 +110 °C +25 °C -40 °C 1.0 0.5 0.0 -0.5 1.5 Figure 6. Input Threshold Voltage www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 2 3 Input Voltage : VIN [V] Figure 5. Input Bias Current Internal Logic Value : H/L [-] Internal Logic Value : H/L [-] 1.5 1 2.6 2.8 3 3.2 3.4 3.6 Supply Voltage : VCC [V] 3.8 4 Figure 7. Under Voltage Lock Out 6/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Typical Performance Curves (Reference Data) - continued 0.4 -40 °C +25 °C +110 °C -0.1 Output Voltage : VOUTL [V] Output Voltage : VCC - VOUTH [V] 0 -0.2 -0.3 -0.4 0 1 2 3 4 Source Current : IO [mA] +110 °C +25 °C -40 °C 0.3 0.2 0.1 0 5 0 Figure 8. Output High Voltage 4 40 -40 °C +25 °C +110 °C 3 2 1 0 0 1 2 3 4 Input Frequency : fIN [Hz] 5 Figure 10. Output vs Input Frequency Characteristics (Low Frequency) www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 2 3 Sink Current : IO [mA] 4 5 Figure 9. Output Low Voltage Output Frequency : fOUT [kHz] Output Frequency : fOUT [Hz] 5 1 -40 °C +25 °C +110 °C 30 20 10 0 0 10 20 30 Input Frequency : fIN [kHz] 40 Figure 11. Output vs Input Frequency Characteristics 7/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Timing Chart IN OUT Figure 12. Timing Chart I/O Equivalence Circuits VCC VCC IN OUT Figure 13. IN www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 Figure 14. OUT, VCC 8/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Operational Notes 1. Reverse Connection of Power Supply Connecting the power supply in reverse polarity can damage the IC. Take precautions against reverse polarity when connecting the power supply, such as mounting an external diode between the power supply and the IC’s power supply pins. 2. Power Supply Lines Design the PCB layout pattern to provide low impedance supply lines. Separate the ground and supply lines of the digital and analog blocks to prevent noise in the ground and supply lines of the digital block from affecting the analog block. Furthermore, connect a capacitor to ground at all power supply pins. Consider the effect of temperature and aging on the capacitance value when using electrolytic capacitors. 3. Ground Voltage Ensure that no pins are at a voltage below that of the ground pin at any time, even during transient condition. However, pins that drive inductive loads (e.g. motor driver outputs, DC-DC converter outputs) may inevitably go below ground due to back EMF or electromotive force. In such cases, the user should make sure that such voltages going below ground will not cause the IC and the system to malfunction by examining carefully all relevant factors and conditions such as motor characteristics, supply voltage, operating frequency and PCB wiring to name a few. 4. Ground Wiring Pattern When using both small-signal and large-current ground traces, the two ground traces should be routed separately but connected to a single ground at the reference point of the application board to avoid fluctuations in the small-signal ground caused by large currents. Also ensure that the ground traces of external components do not cause variations on the ground voltage. The ground lines must be as short and thick as possible to reduce line impedance. 5. Recommended Operating Conditions The function and operation of the IC are guaranteed within the range specified by the recommended operating conditions. The characteristic values are guaranteed only under the conditions of each item specified by the electrical characteristics. 6. Inrush Current When power is first supplied to the IC, it is possible that the internal logic may be unstable and inrush current may flow instantaneously due to the internal powering sequence and delays, especially if the IC has more than one power supply. Therefore, give special consideration to power coupling capacitance, power wiring, width of ground wiring, and routing of connections. 7. Operation Under Strong Electromagnetic Field Operating the IC in the presence of a strong electromagnetic field may cause the IC to malfunction. 8. Testing on Application Boards When testing the IC on an application board, connecting a capacitor directly to a low-impedance output pin may subject the IC to stress. Always discharge capacitors completely after each process or step. The IC’s power supply should always be turned off completely before connecting or removing it from the test setup during the inspection process. To prevent damage from static discharge, ground the IC during assembly and use similar precautions during transport and storage. 9. Inter-pin Short and Mounting Errors Ensure that the direction and position are correct when mounting the IC on the PCB. Incorrect mounting may result in damaging the IC. Avoid nearby pins being shorted to each other especially to ground, power supply and output pin. Inter-pin shorts could be due to many reasons such as metal particles, water droplets (in very humid environment) and unintentional solder bridge deposited in between pins during assembly to name a few. 10. Regarding the Input Pin of the IC In the construction of this IC, P-N junctions are inevitably formed creating parasitic diodes or transistors. The operation of these parasitic elements can result in mutual interference among circuits, operational faults, or physical damage. Therefore, conditions which cause these parasitic elements to operate, such as applying a voltage to an input pin lower than the ground voltage should be avoided. Furthermore, do not apply a voltage to the input pins when no power supply voltage is applied to the IC. Even if the power supply voltage is applied, make sure that the input pins have voltages within the values specified in the electrical characteristics of this IC. www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 9/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Ordering Information B U 6 8 2 Part Number 3 G Package G: SSOP5 - TR Packaging and forming specification TR: Embossed tape and reel Marking Diagram SSOP5(TOP VIEW) 9 X Part Number Marking LOT Number www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 10/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Physical Dimension and Packing Information Package Name www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 SSOP5 11/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 BU6823G Revision History Date Revision Changes 29.May.2018 001 New Release 30.Sep.2021 002 Page 1: Applications are added. www.rohm.com © 2018 ROHM Co., Ltd. All rights reserved. TSZ22111 • 15 • 001 12/12 TSZ02201-0P1P0CB02280-1-2 30.Sep.2021 Rev.002 Notice Precaution on using ROHM Products 1. Our Products are designed and manufactured for application in ordinary electronic equipment (such as AV equipment, OA equipment, telecommunication equipment, home electronic appliances, amusement equipment, etc.). If you intend to use our Products in devices requiring extremely high reliability (such as medical equipment (Note 1), transport equipment, traffic equipment, aircraft/spacecraft, nuclear power controllers, fuel controllers, car equipment including car accessories, safety devices, etc.) and whose malfunction or failure may cause loss of human life, bodily injury or serious damage to property (“Specific Applications”), please consult with the ROHM sales representative in advance. Unless otherwise agreed in writing by ROHM in advance, ROHM shall not be in any way responsible or liable for any damages, expenses or losses incurred by you or third parties arising from the use of any ROHM’s Products for Specific Applications. (Note1) Medical Equipment Classification of the Specific Applications JAPAN USA EU CHINA CLASSⅢ CLASSⅡb CLASSⅢ CLASSⅢ CLASSⅣ CLASSⅢ 2. ROHM designs and manufactures its Products subject to strict quality control system. 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However, recommend sufficiently about the residue.) ; or Washing our Products by using water or water-soluble cleaning agents for cleaning residue after soldering [h] Use of the Products in places subject to dew condensation 4. The Products are not subject to radiation-proof design. 5. Please verify and confirm characteristics of the final or mounted products in using the Products. 6. In particular, if a transient load (a large amount of load applied in a short period of time, such as pulse, is applied, confirmation of performance characteristics after on-board mounting is strongly recommended. Avoid applying power exceeding normal rated power; exceeding the power rating under steady-state loading condition may negatively affect product performance and reliability. 7. De-rate Power Dissipation depending on ambient temperature. When used in sealed area, confirm that it is the use in the range that does not exceed the maximum junction temperature. 8. Confirm that operation temperature is within the specified range described in the product specification. 9. ROHM shall not be in any way responsible or liable for failure induced under deviant condition from what is defined in this document. Precaution for Mounting / Circuit board design 1. When a highly active halogenous (chlorine, bromine, etc.) flux is used, the residue of flux may negatively affect product performance and reliability. 2. In principle, the reflow soldering method must be used on a surface-mount products, the flow soldering method must be used on a through hole mount products. If the flow soldering method is preferred on a surface-mount products, please consult with the ROHM representative in advance. For details, please refer to ROHM Mounting specification Notice-PGA-E © 2015 ROHM Co., Ltd. All rights reserved. Rev.004 Precautions Regarding Application Examples and External Circuits 1. 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Notice – WE © 2015 ROHM Co., Ltd. All rights reserved. Rev.001