# Title: Fan 6 Click Board™ ## Description: How Does The Fan 6 Click Board™ Work? The Fan 6 Click Board™ allows the user to program temperatures generated from external sources to control the fan speed. This functionality also supports DTS data from the CPU. By pushing DTS or standard temperature values into dedicated registers, the external temperature readings can be used in conjunction with the external diode(s) and internal diode to control the fan speed. The EMC2103 from Microchip also includes a hardware programmable temperature limit and dedicated system shutdown output for thermal protection of critical circuitry. The EMC2103 supports a high or low frequency PWM driver. The output can be configured as either push-pull or open drain and the frequency ranges from 9.5Hz to 26kHz in four programmable frequency bands. The EMC2103 includes an RPM based Fan Speed Control Algorithm. This fan control algorithm uses Proportional, Integral, and Derivative terms to automatically approach and maintain the system's desired fan speed to an accuracy directly proportional to the accuracy of the clock source. The EMC2103 supports DTS (Intel's Digital Temperature Sensor) data in the Fan Control Look Up Table. Intel's DTS data is a positive number that represents the processor's relative temperature below a fixed value called TCONTROL which is generally equal to 100°C for Intel Mobile processors. For example, a DTS value of 10°C means that the actual processor temperature is 10°C below TCONTROL or equal to 90°C. The EMC2103's RPM based Fan Speed Control Algorithm has programmable configuration settings for parameters such as ramp-rate control and spin up conditions. The fan driver automatically detects and attempts to alleviate a stalled/stuck fan condition while also asserting the ALR pin. The tachometer measurement circuitry is used in conjunction with the RPM based Fan Speed Control Algorithm to update the fan driver output. Additionally, it can be used in Direct Setting mode as a diagnostic for host based fan control. This method monitors the TACH signal in real time. It constantly updates the tachometer measurement by reporting the number of clocks between a user programmed number of edges on the TACH signal. The External Diode 1 channel can support a diode-connected transistor (such as a 2N3904) or a substrate transistor requiring the BJT or transistor model (such as those found in a CPU or GPU). The External Diode 2 channel supports any diode connection or it can be configured to operate in anti-parallel diode (APD) mode. The MIC2253 is a constant frequency, pulse-width modulated (PWM) peak current-mode step-up regulator. A reference voltage is fed into the PWM engine where the duty cycle output of the constant frequency PWM engine is computed from the error, or difference, between the REF and FB voltages. The PWM engine encompasses the necessary circuit blocks to implement a current-mode boost switching power supply, allowing Fan 6 click to drive 12V fan. SPECIFICATIONS Type Brushless Applications For speed control of DC fans (5/12 VDC) than could be found on PCs, servers, network equipment, set-top-box and digital-video-recorder devices, and many other consumer electronics, or storage containers like RAID systems etc. On-board modules EMC2103 fan controller and the MIC2253 boost regulator Key Features Programmable and RPM based fan control, temperature look-up table Interface GPIO,I2C Compatibility mikroBUS Click board size L (57.15 x 25.4 mm) Input Voltage 3.3V,5V PINOUT DIAGRAM This table shows how the pinout on the Fan 6 Click Board™ corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns). Notes Pin Pin Notes GPIO1 IO1 1 AN PWM 16 IO2 GPIO 2 Shutdown output SDN 2 RST INT 15 ALR Alert Interrupt Enable EN 3 CS RX 14 NC NC 4 SCK TX 13 NC NC 5 MISO SCL 12 SCL I2C Clock NC 6 MOSI SDA 11 SDA I2C Data Power Supply 3.3V 7 3.3V 5V 10 5V Power Supply Ground GND 8 GND GND 9 GND Ground ONBOARD SETTINGS AND INDICATORS Label Name Default Description PWR LED - Power LED Indicator CN1 - - Fan and diodes connector JP1 VFAN SEL Left Fan supply voltage selection: left position 12V, right position 5V ## Product type: Click Board ## Vendor: Mikroelektronika d.o.o. ## Tags: Brushless, Click Board, Fan, MikroE, Motor Control ## Price range: 20.3 - 20.3 GBP ## Link: https://thedebugstore.com/products/mikroe-3867-fan-6-click-board-uk ## Compare-at price range: 29.0 - 29.0 GBP ## Options - Title: Default Title ## Collections - [New Products](https://thedebugstore.com/a/llms/collections/new-products-debug-store) - [Mikroelektronika d.o.o. (MikroE)](https://thedebugstore.com/a/llms/collections/mikroelektronika-catalogue-uk) - [Motor Control Click Boards™](https://thedebugstore.com/a/llms/collections/motor-control-click-boards-catalogue) - [MikroE Click Boards™](https://thedebugstore.com/a/llms/collections/mikroe-click-boards-catalogue-uk) - [Brushles Motor Control Click Boards™](https://thedebugstore.com/a/llms/collections/brushless-motor-control-click-boards-catalogue) - [Click Boards™ Summer Sale](https://thedebugstore.com/a/llms/collections/inventory-sale) - [MikroE Sale](https://thedebugstore.com/a/llms/collections/mikroe-sale) - [MIKROE Stock](https://thedebugstore.com/a/llms/collections/mikroe-products-in-stock-sale) ## Variants - Default Title, SKU: MIKROE-3867, Available: yes, Inventory: 1 ## Metafields - full_description:

How Does The Fan 6 Click Board™ Work?

The Fan 6 Click Board™ allows the user to program temperatures generated from external sources to control the fan speed. This functionality also supports DTS data from the CPU. By pushing DTS or standard temperature values into dedicated registers, the external temperature readings can be used in conjunction with the external diode(s) and internal diode to control the fan speed. The EMC2103 from Microchip also includes a hardware programmable temperature limit and dedicated system shutdown output for thermal protection of critical circuitry. The EMC2103 supports a high or low frequency PWM driver. The output can be configured as either push-pull or open drain and the frequency ranges from 9.5Hz to 26kHz in four programmable frequency bands.

Click Boards Motor Control Brushless Fan 6 Click

The EMC2103 includes an RPM based Fan Speed Control Algorithm. This fan control algorithm uses Proportional, Integral, and Derivative terms to automatically approach and maintain the system's desired fan speed to an accuracy directly proportional to the accuracy of the clock source.

The EMC2103 supports DTS (Intel's Digital Temperature Sensor) data in the Fan Control Look Up Table. Intel's DTS data is a positive number that represents the processor's relative temperature below a fixed value called TCONTROL which is generally equal to 100°C for Intel Mobile processors. For example, a DTS value of 10°C means that the actual processor temperature is 10°C below TCONTROL or equal to 90°C.

The EMC2103's RPM based Fan Speed Control Algorithm has programmable configuration settings for parameters such as ramp-rate control and spin up conditions. The fan driver automatically detects and attempts to alleviate a stalled/stuck fan condition while also asserting the ALR pin.

The tachometer measurement circuitry is used in conjunction with the RPM based Fan Speed Control Algorithm to update the fan driver output. Additionally, it can be used in Direct Setting mode as a diagnostic for host based fan control. This method monitors the TACH signal in real time. It constantly updates the tachometer measurement by reporting the number of clocks between a user programmed number of edges on the TACH signal.

The External Diode 1 channel can support a diode-connected transistor (such as a 2N3904) or a substrate transistor requiring the BJT or transistor model (such as those found in a CPU or GPU). The External Diode 2 channel supports any diode connection or it can be configured to operate in anti-parallel diode (APD) mode.

The MIC2253 is a constant frequency, pulse-width modulated (PWM) peak current-mode step-up regulator. A reference voltage is fed into the PWM engine where the duty cycle output of the constant frequency PWM engine is computed from the error, or difference, between the REF and FB voltages. The PWM engine encompasses the necessary circuit blocks to implement a current-mode boost switching power supply, allowing Fan 6 click to drive 12V fan.

SPECIFICATIONS

Type Brushless
Applications For speed control of DC fans (5/12 VDC) than could be found on PCs, servers, network equipment, set-top-box and digital-video-recorder devices, and many other consumer electronics, or storage containers like RAID systems etc.
On-board modules EMC2103 fan controller and the MIC2253 boost regulator
Key Features Programmable and RPM based fan control, temperature look-up table
Interface GPIO,I2C
Compatibility mikroBUS
Click board size L (57.15 x 25.4 mm)
Input Voltage 3.3V,5V

PINOUT DIAGRAM

This table shows how the pinout on the Fan 6 Click Board™ corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns).

Notes Pin Mikrobus logo.png Pin Notes
GPIO1 IO1 1 AN PWM 16 IO2 GPIO 2
Shutdown output SDN 2 RST INT 15 ALR Alert Interrupt
Enable EN 3 CS RX 14 NC
NC 4 SCK TX 13 NC
NC 5 MISO SCL 12 SCL I2C Clock
NC 6 MOSI SDA 11 SDA I2C Data
Power Supply 3.3V 7 3.3V 5V 10 5V Power Supply
Ground GND 8 GND GND 9 GND Ground

ONBOARD SETTINGS AND INDICATORS

Label Name Default  Description
PWR LED - Power LED Indicator
CN1 - - Fan and diodes connector
JP1 VFAN SEL Left Fan supply voltage selection: left position 12V, right position 5V

 

- description_tag: The Fan 6 Click Board™ features the EMC2103, an SMBus compliant fan controller with up to up to 3 external and 1 internal temperature channels. The fan driver can be operated using two methods each with two modes. Available from Debug Store UK. - title_tag: MikroE Fan 6 Click Board™ (MIKROE-3867) - manufacturer: Mikroelektronika d.o.o. - warranty: 12 months - amazon_enable: TRUE - amazon_title: Fan 6 Click Board - amazon_product_type: computercomponent - amazon_block: FALSE - amazon_prime_enable: FALSE - amazon_search: MikroElektronika Microelectronica MIKROE-1100 - amazon_uk_price: 14.08 - amazon_uk_currency: GBP - amazon_de_currency: EUR - amazon_de_price: 15.9104 - amazon_fr_currency: EUR - amazon_fr_price: 15.9104 - amazon_es_currency: EUR - amazon_es_price: 15.9104 - amazon_nl_currency: EUR - amazon_nl_price: 15.9104 - amazon_it_currency: EUR - amazon_it_price: 15.9104 - amazon_se_curency: SEK - amazon_se_price: 160.512 - amazon_product_id: 8606018719402 - amazon_product_id_type: EAN - amazon_update: Update - amazon_short_description: The Fan 6 Click Board™ features the EMC2103, an SMBus compliant fan controller with up to up to 3 external and 1 internal temperature channels. The fan driver can be operated using two methods each with two modes. The methods include an RPM based Fan Speed Control Algorithm and a direct PWM drive setting. The modes include manually programming the desired settings or using the internal programmable temperature look-up table to select the desired setting based on measured temperature. And MIC2253 a high power-density, 1 MHz PWM DC/DC boost regulator which allows driving 12V fan. - amazon_long_description:

How Does The Fan 6 Click Board Work?

The Fan 6 Click Board™ allows the user to program temperatures generated from external sources to control the fan speed. This functionality also supports DTS data from the CPU. By pushing DTS or standard temperature values into dedicated registers, the external temperature readings can be used in conjunction with the external diode(s) and internal diode to control the fan speed. The EMC2103 from Microchip also includes a hardware programmable temperature limit and dedicated system shutdown output for thermal protection of critical circuitry. The EMC2103 supports a high or low frequency PWM driver. The output can be configured as either push-pull or open drain and the frequency ranges from 9.5Hz to 26kHz in four programmable frequency bands.

Click Boards Motor Control Brushless Fan 6 Click

The EMC2103 includes an RPM based Fan Speed Control Algorithm. This fan control algorithm uses Proportional, Integral, and Derivative terms to automatically approach and maintain the system’s desired fan speed to an accuracy directly proportional to the accuracy of the clock source.

The EMC2103 supports DTS (Intel’s Digital Temperature Sensor) data in the Fan Control Look Up Table. Intel’s DTS data is a positive number that represents the processor’s relative temperature below a fixed value called TCONTROL which is generally equal to 100°C for Intel Mobile processors. For example, a DTS value of 10°C means that the actual processor temperature is 10°C below TCONTROL or equal to 90°C.

The EMC2103’s RPM based Fan Speed Control Algorithm has programmable configuration settings for parameters such as ramp-rate control and spin up conditions. The fan driver automatically detects and attempts to alleviate a stalled/stuck fan condition while also asserting the ALR pin.

The tachometer measurement circuitry is used in conjunction with the RPM based Fan Speed Control Algorithm to update the fan driver output. Additionally, it can be used in Direct Setting mode as a diagnostic for host based fan control. This method monitors the TACH signal in real time. It constantly updates the tachometer measurement by reporting the number of clocks between a user programmed number of edges on the TACH signal.

The External Diode 1 channel can support a diode-connected transistor (such as a 2N3904) or a substrate transistor requiring the BJT or transistor model (such as those found in a CPU or GPU). The External Diode 2 channel supports any diode connection or it can be configured to operate in anti-parallel diode (APD) mode.

The MIC2253 is a constant frequency, pulse-width modulated (PWM) peak current-mode step-up regulator. A reference voltage is fed into the PWM engine where the duty cycle output of the constant frequency PWM engine is computed from the error, or difference, between the REF and FB voltages. The PWM engine encompasses the necessary circuit blocks to implement a current-mode boost switching power supply, allowing the Fan 6 Click Board™ to drive a 12V fan.

- amazon_main_image: https://www.thedebugstore.com/images/product/lg-fan-6-click-3867-front_1.jpg - amazon_other_image_1: https://www.thedebugstore.com/images/product/lg-fan-6-click-3867-back_1.jpg - amazon_other_image_2: https://www.thedebugstore.com/images/product/lg-fan-6-click-3867-back_1.jpg - amazon_browse_node: 428655031 - mpn: MIKROE-3867 - backorder_label: If no stock shown above, check availability - badge: - widget:

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- examples:

We provide a library for the Fan 6 Click Board™ on our LibStock page, as well as a demo application (example), developed using MikroElektronika compilers. The demo can run on all the main MikroElektronika development boards.

Library Description

Initializes and defines I2C driver and driver functions which have ability to controls the operation of the fan by writting to registers and reading from registers. Functions also offer a choice to communicate with EEPROM and check tachometer value and temperature value of internal or external diode. Also, there is an option to change operation mode of fan. For more details check documentation.

Key Functions

Example Description

The application is composed of three sections :

void applicationTask()
{
    tachometer = fan6_readTachometer();
    LongWordToStr( tachometer, text );
    mikrobus_logWrite( "Tachometer value is: ", _LOG_TEXT );
    mikrobus_logWrite( text, _LOG_TEXT );
    mikrobus_logWrite( " rpm", _LOG_LINE );
    
    tempDiode = fan6_getTemperature( _FAN6_EXTDIODE1_TEMP_READ_REG, &temperatureSign );
    FloatToStr( tempDiode, text );
    mikrobus_logWrite( "Temperature of DIODE is: ", _LOG_TEXT );
    if (temperatureSign)
        mikrobus_logWrite( "-", _LOG_TEXT );
    mikrobus_logWrite( text, _LOG_TEXT );
    mikrobus_logWrite( " Cels", _LOG_LINE );
    
    mikrobus_logWrite( "", _LOG_LINE );
    Delay_ms( 500 );
}

The full application code, and ready to use projects can be found on our LibStock page.

Other mikroE Libraries used in the example:

Additional Notes and Information

Depending on the development board you are using, you may need USB UART click, USB UART 2 click or RS232 click to connect to your PC, for development systems with no UART to USB interface available on the board. The terminal available in all MikroElektronika compilers, or any other terminal application of your choice, can be used to read the message.

MIKROSDK

The Fan 6 Click Board™ is supported with mikroSDK - MikroElektronika Software Development Kit. To ensure proper operation of mikroSDK compliant Click board™ demo applications, mikroSDK should be downloaded from the LibStock and installed for the compiler you are using.

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This functionality also supports DTS data from the CPU. By pushing DTS or standard temperature values into dedicated registers, the external temperature readings can be used in conjunction with the external diode(s) and internal diode to control the fan speed. The EMC2103 from Microchip also includes a hardware programmable temperature limit and dedicated system shutdown output for thermal protection of critical circuitry. The EMC2103 supports a high or low frequency PWM driver. The output can be configured as either push-pull or open drain and the frequency ranges from 9.5Hz to 26kHz in four programmable frequency bands."}]},{"type":"paragraph","children":[{"type":"text","value":""}]},{"type":"paragraph","children":[{"type":"text","value":"The EMC2103 includes an RPM based Fan Speed Control Algorithm. This fan control algorithm uses Proportional, Integral, and Derivative terms to automatically approach and maintain the system's desired fan speed to an accuracy directly proportional to the accuracy of the clock source."}]},{"type":"paragraph","children":[{"type":"text","value":"The EMC2103 supports DTS (Intel's Digital Temperature Sensor) data in the Fan Control Look Up Table. Intel's DTS data is a positive number that represents the processor's relative temperature below a fixed value called TCONTROL which is generally equal to 100°C for Intel Mobile processors. For example, a DTS value of 10°C means that the actual processor temperature is 10°C below TCONTROL or equal to 90°C."}]},{"type":"paragraph","children":[{"type":"text","value":"The EMC2103's RPM based Fan Speed Control Algorithm has programmable configuration settings for parameters such as ramp-rate control and spin up conditions. The fan driver automatically detects and attempts to alleviate a stalled/stuck fan condition while also asserting the ALR pin."}]},{"type":"paragraph","children":[{"type":"text","value":"The tachometer measurement circuitry is used in conjunction with the RPM based Fan Speed Control Algorithm to update the fan driver output. Additionally, it can be used in Direct Setting mode as a diagnostic for host based fan control. This method monitors the TACH signal in real time. It constantly updates the tachometer measurement by reporting the number of clocks between a user programmed number of edges on the TACH signal."}]},{"type":"paragraph","children":[{"type":"text","value":"The External Diode 1 channel can support a diode-connected transistor (such as a 2N3904) or a substrate transistor requiring the BJT or transistor model (such as those found in a CPU or GPU). The External Diode 2 channel supports any diode connection or it can be configured to operate in anti-parallel diode (APD) mode."}]},{"type":"paragraph","children":[{"type":"text","value":"The MIC2253 is a constant frequency, pulse-width modulated (PWM) peak current-mode step-up regulator. A reference voltage is fed into the PWM engine where the duty cycle output of the constant frequency PWM engine is computed from the error, or difference, between the REF and FB voltages. The PWM engine encompasses the necessary circuit blocks to implement a current-mode boost switching power supply, allowing Fan 6 click to drive 12V fan."}]},{"type":"heading","level":3,"children":[{"type":"text","value":"SPECIFICATIONS"}]},{"type":"paragraph","children":[{"type":"text","value":"Type\nBrushless\nApplications\nFor speed control of DC fans (5/12 VDC) than could be found on PCs, servers, network equipment, set-top-box and digital-video-recorder devices, and many other consumer electronics, or storage containers like RAID systems etc.\nOn-board modules\nEMC2103 fan controller and the MIC2253 boost regulator\nKey Features\nProgrammable and RPM based fan control, temperature look-up table\nInterface\nGPIO,I2C\nCompatibility\nmikroBUS\nClick board size\nL (57.15 x 25.4 mm)\nInput Voltage\n3.3V,5V"}]},{"type":"heading","level":3,"children":[{"type":"text","value":"PINOUT DIAGRAM"}]},{"type":"paragraph","children":[{"type":"text","value":"This table shows how the pinout on the "},{"type":"text","value":"Fan 6 Click Board™","bold":true},{"type":"text","value":" corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns)."}]},{"type":"paragraph","children":[{"type":"text","value":"Notes\nPin\nPin\nNotes\nGPIO1\nIO1\n1\nAN\nPWM\n16\nIO2\nGPIO 2\nShutdown output\nSDN\n2\nRST\nINT\n15\nALR\nAlert Interrupt\nEnable\nEN\n3\nCS\nRX\n14\nNC\nNC\n4\nSCK\nTX\n13\nNC\nNC\n5\nMISO\nSCL\n12\nSCL\nI2C Clock\nNC\n6\nMOSI\nSDA\n11\nSDA\nI2C Data\nPower Supply\n3.3V\n7\n3.3V\n5V\n10\n5V\nPower Supply\nGround\nGND\n8\nGND\nGND\n9\nGND\nGround"}]},{"type":"heading","level":3,"children":[{"type":"text","value":"ONBOARD SETTINGS AND INDICATORS"}]},{"type":"paragraph","children":[{"type":"text","value":"Label\nName\nDefault\n Description\nPWR\nLED\n-\nPower LED Indicator\nCN1\n-\n-\nFan and diodes connector\nJP1\nVFAN SEL\nLeft\nFan supply voltage selection: left position 12V, right position 5V"}]},{"type":"heading","level":3,"children":[{"type":"text","value":" "}]}]} - summary:

The Fan 6 Click Board™ features the EMC2103, an SMBus compliant fan controller with up to up to 3 external and 1 internal temperature channels. The fan driver can be operated using two methods each with two modes. The methods include an RPM-based Fan Speed Control Algorithm and a direct PWM drive setting. The modes include manually programming the desired settings or using the internal programmable temperature look-up table to select the desired setting based on measured temperature. And MIC2253 a high power-density, 1 MHz PWM DC/DC boost regulator which allows driving a 12V fan.