FitShow FSBTF5 Bluetooth Module
This specification provides an introduction to the basic functions of the FS-BT-F5 module, including the electrical specifications, RF performance, pin dimensions, and reference schematic design of the module.
Readers can refer to this document to have a detailed understanding and application of the overall functional parameters of the module. If you have any questions, please log in to https://www.fitshow.com/ e fa'afeso'ota'i le matou kamupani po'o le auaunaga fa'atau.
Oloa ua maeʻaview
Galuega Fa'atino
FS-BT-F5 is a small-sized and low-cost standardized Bluetooth dual-mode (BT+BLE) transmitter developed by Sports Show Transmission module. The module supports Bluetooth 5.1+BR+EDR+BLE specifications. Support dynamic stacking and protocols Profile configuration enables product functions to be configured through software, providing ultimate flexibility. At the same time It supports OTA upgrades, which is convenient for later maintenance and updates.
Fa'aoga oloa
The FS-BT-F5 module only needs to be connected to VCC,GND,TX and RX wires to complete data transparent transmission Function; It can also be applied to many small-sized accessories or fitness small products through stamp holes. shipment Dongxiu has strong R&D capabilities and can easily achieve interconnection of users’ Bluetooth devices, data transmission and other functions This kind of application. Our company can customize and design based on the FS-BT-F5 standard module according to the customer’s requirements Provide Bluetooth modules that comply with the customer’s usage norms and offer corresponding software
and hardware support.
Applicable Fields
- Smart skipping ropes, abdominal wheels and other fitness accessories
- Fitness equipment such as smart treadmills, spinning bikes, rowing machines, fat-burning machines, and strength training equipment
- O oloa fale atamai
- industrial control equipment
Fua Fa'atatau
Fa'amatalaga eletise
nominal parameter
| Aitema | Faailoga | Min | masani | Max | Vaega |
| sao voltage | VCC | 3 | 3.3 | 5 | V |
| Taulaga fa'asologa voltage | TX / RX | 3.0 | 3.3 | V | |
| vevela teuina | T-STG | -65 | 25 | 150 | ℃ |
| welding temperature | T-SLD | 260 | ℃ |
- Note: 1) The listed electrical characteristics are target specifications for reference only. Some data may be updated based on actual tests.
- Le voltage value shown is based on the GND inside the module.
So'o se voltage exceeding the “maximum rated value” may cause permanent damage to the equipment.
Fa'amatalaga pine
| PIN NO | Igoa | Ituaiga I/O | Avega (mA) | Funetion | Cher Funclion |
| 1 | SAUNIGA | P | / | DAC Ground | |
| 2 | VCOM | / | |||
| 3 | DACL | O | / | DAC Left Chennel | |
| 4 | DACR | O | / | Auala Taumatau DAC | |
| 5 | PB7 | I/O | 24/8 | GPIO | SD0CLK_BF:SD0Clock(BF)AMUXIR: Analog ChannellRight; SP12DOA: SPI2 Data Out(A); IIC_SDA_C: IIC DAT(C);ADC9: ADC Input Channel 9;PWM5: Timer5 PWM Output: UARTIRXA: Uartl Data In(A); |
| 6 | PB6 | I/O | 24/8 | GPIO | AMUXIL: Analog Channell Left; SP12CLKA: SPI2 Data Out(A); IIC_SCL_C: IIC SCL(C);ADC8: ADC Input Channel 8; TMR3: Timer3 Clock Input:UARTIRXA: Uartl Data Out(A); |
| 7 | PB4 | I/O | 24/8 | GPIO | SPIO_DAT2A(2): SPIO Data2 0ut_A(2);ADC7: ADC Input Channel 7; CLKOUT1UART2TXC:Uart2 Data 0ut(C)UART2RXC:Uart2 Data In(C): |
| 8 | LDO_IN | P | / | Totogi ma'a i totonu | |
| PB5 | I/O | 8 | GPIO(High Voltage Tetee) | SPI2DIA: SPI2 Data Input(A);PWM3: Timer3 PWM Output; CAPl:Timerl Capture; UARTOTXC:Uant0 Data Out(C);UARTORXC:Uant0 Data In(C); | |
| 9 | VCC | P | / | Paoa sapalai Paoa | |
| 10 | VDDIO | P | / | I0 Power 3.3v | |
| 11 | BT_AVDD | P | / | BT Malosiaga | |
| 12 | PB3 | I/O | / | GPIO | SDODAT_D:SD0 Data(D);ADC6: ADC Input Channel 6; PWM2: Timer2 PWM Ouput;UART2RXB:Uart2 Data ln(B); |
| 13 | PB2 | I/O | 8 | GPIO(High VoltageResistance) | SDOCMD_D:SD0 Command(D) SPIIDIA: SPl1 Data In(A);CAPO: Timer0 Capture;UART2TXB: Uart2 Data Out(B); |
| 14 | PB1 | I/O | 24/8 | GPIO(pull up) | Long Press Reset;SPI1DOA: SPIl Data Out(A);ADC5: ADC lnput Channel 5; TMR2: Timer2 Clock Input; UARTORXB: Uart0 Data ln(B);SPDIF_IN_D: Sony/Philips Digital InterfaceInput(D) |
|
15 |
PB0 | I/O | 8 | GPIO(High Voltage Tetee) | SDOCLK_D:SD0Clock(D) SPIICLKA:SPII Clock(A);UARTOTXB: Uartl Data Out(B); TMR5: Timer5 Clock lnput; SPDIF_IN_C:Sony/Philips Digital Interface Inpul(C) |
| 16 | FMIP | / | / | FM Antenna | |
| 17 | BT_RF | / | / | BT velo | |
| 18 | BT_SOCI | I | / | BT OSC ln | |
| 19 | BT SOCO | O | / | BT OSC Out | |
| 20 | PC5 | I/O | 24/8 | GPIO | SD0CLK_AE: SD0 ClOck (AE)SPIIDOB: SPll Data Out(B): IIC_SDA_B: IIC SDA(B);ADC12: ADC Input Channel 12; TMRI: Timert Clock lnput;UART2RXD:Uart2 Data In(D); |
| 21 | PC4 | I/O | 24/8 | GPIO | SD0CMD_A:SD0 Commnand (A); SPI0_DAT3AB(3): SPIO Data3(AB); SPIICLKB; SPI1 Clock(B); IIC_SCL_B: IIC SCL(B);ADCI1: ADC Input Channel 11; PWMl: Timer1 PWM Output; UART2TXD:Uart2 Data Out (D); |
| 22 | PC3 | I/O | 24/8 | GPIO | SD0DAT_A:SD0 DataA); SP10_DAT2B(2): SP10 Data2(B); SPIIDIB: SPIl Data In(B);CAP2: Timer2 Capture; UAR To TXD: Uart0 Data Out (D);UARTORXD: Uart0 Data In(D); |
| 23 | PC2 | I/O | 24/8 | SP10_DIB(1): SPl0 Data lnput(B); ALNK_MCLK_B: ALNK Master Clock(B):ADC10:ADC lnput Channel 10;CAP5: Timer5 Capture; UARTIRXB: Uartl Data ln(B); | |
| 24 | Uart_RX | I/O | 4 | USBNegative Data(pull down) | SP12DOB: SP12 Data 0ut(B); IIC_SDA_A: IIC SDA(A);ADC14: ADC Input Channel 14;UARTIRXD: Uartl Data In(D); |
| 25 | Uart_TX | I/O | 4 | USBPositive Data(pull down) | SPI2CLKB:SPI2 Clock(B); IIC_SCL_A: IIC SC(LA);ADC13: ADC Input Channel l3;UARTITXD: Uartl Data Output(D); |
| 26 | PA6 | I/O | 24/8 | ALNK_DAT3_A: Audio Link Data3_A; ALNK_LRCK_B: Audio Link Word SclcctB IIC_SDA_D: IIC SDA(D);ADC4: ADC Input Channel 4; CAP4: Timer4 Capture; UARTORXA: Uart0 Data In(A);SPDIF_IN_B: Sony/Philips Digital InterfaceInput(B) |
|
27 |
PA5 | I/O | 24/8 | ALNK_DAT2_A: Audio Link Dau2_A; ALNK_SCLK_B: Audio Link Serial Clock(B); IIC_SCL_D:IIC SCL(D);PWMO: Timer0 PWM Output; UARTOTXA: Uart0 Data Output(A);SPDIF_IN_A: Sony/Philips Digital InterfaceInput(A) | |
| 28 | PA4 | I/O | 24/8 | SDOCMD_CE:SD0 Command(CE)AMUXOR: Analog ChanneIO Right; PLNK_DATI: PLNK Datal; ALNK_ LRCK_A: Audio Link word Select (A); ALNK_DAT3_B: Audio Link Data3 B. UARTI_RTS: Uartl Request to send;ADC3: ADC Input Channel 3; TMR4: Timer4 Clock Input;UART2RXA: Uart2 Data In(A); | |
| 29 | PA3 | I/O | 24/8 | SDODAT_C:SD0 Data(C);AMUX0L: Analog Channel0 Left; PLNK_SCLK: PLNK Serial Clock; ALNK _SCLK_A: Audio Link Serial Clock(A); ALNK_DAT2_B: Audio Link Data2_B; UARTI_CTS: Uartl Clear to send;ADC2: ADC Input Channel 3; PWM5: Timer5 PWM Ouput;UART2TXA:Uartl Data Output(D); | |
| 30 | PA2 | I/O | 24/8 | GPIO | SD0CLK_C:SD0 Clock(C);MIC_ BlAS: Microphone Bias Output ALNK_MCLK_A: ALNK Master Clock A; ALNK_ DATl _B: Audio Link Datal _B;CAP3:Timer3 Capture; |
| 31 | PA1 | I | 24/8 | MlC: MIC Input Channel; ADCl: ADC Input Channel l; PWM4: Timcr4 PWM Oupat; UARTIRXC: Uart0 Data ln(C); | |
| 32 | PA0 | I/O | / | SDPG: SD Power Supply ALNK_DATO_A: Audio Link Data0_A; ALNK_DATO_B: Audio Link Data0_B; ADC0: ADC Input Channel 0; CLKOUTDUA RTITXC: Uantl Data Output(C); |
Ata fa'ata'atia
Module size and packaging 
O mataupu e manaʻomia le gauai
The operating frequency of Bluetooth is 2.4GHz. It is necessary to avoid the influence of various factors on wireless transmission and reception as much as possible.
Fa'aaliga:
- The product housing part surrounding the module should avoid using metal
- Metal screws and other components inside the product should be kept away from the RF section of the module
- To maximize the RF performance, the user’s motherboard layout should follow the following suggestions:
- Antenna clearance area: There must be no copper on the user’s motherboard directly below the module antenna area foil (Including power supply, ground and signal layers)
- Module position: Ideally, the module should be placed at one corner of the user’s motherboard, with the PCB antenna located at the remote end of the motherboard. This position can minimize the clear zone of the antenna
Fa'amatalaga a le Federal Communications Commission (FCC).
O lenei masini e tausisia le vaega 15 o Tulafono FCC. O le fa'agaioiga e fa'atatau i tulaga nei e lua:
- O lenei masini e le mafai ona fa'alavelave fa'alavelave, ma
- E tatau ona talia e lenei masini so'o se fa'alavelave e maua, e aofia ai fa'alavelave e ono fa'atupu ai le le mana'omia
Fa'aaliga: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide Reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: Reorient or relocate the receiving antenna.
- Faʻateleina le tuʻueseesega i le va o meafaigaluega ma le faʻafefe.
- Fa'afeso'ota'i le masini i totonu o se ta'avale i luga o se ta'amilosaga e ese mai le mea e fa'afeso'ota'i ai le fa'avevela.
- Fa'afeso'ota'i le fa'atau po'o se tekinisia fa'aleoleo/TV mo se fesoasoani.
Lapataiga: So'o se suiga po'o suiga e le'i fa'amaonia manino e le itu e nafa ma le usita'ia e mafai ona fa'aleaogaina le pule a le tagata fa'aoga e fa'agaioi ai masini.
Fa'amatalaga fa'aaliga RF:
O lenei masini e fa'amalieina fa'atapula'a fa'aaliga fa'avevela FCC RF ua fa'ata'atia mo se si'osi'omaga le pulea. O le masini e faʻapipiʻi ma faʻaogaina e aunoa ma se faʻatapulaʻaina.
ISED RF fa'aaliga fa'aaliga:
O nei meafaigaluega e ogatasi ma tapulaa fa'aalia ole fa'avevela a le ISED ua fa'ata'atia mo se si'osi'omaga e le pulea. Ua mae'a su'esu'eina le masini ina ia fa'amalieina mana'oga fa'aalia lautele RF.
Taiala OEM
- Tulafono fa'atatau FCC
O lenei module ua faʻataʻitaʻiina ma maua e tausisia vaega 15.247 manaʻoga mo le Faʻatagaina Modular. - Tulaga fa'aoga fa'apitoa
O lenei module e mafai ona faʻaogaina i masini IoT. O le voltage to the module is nominally V DC. The operational ambient temperature of the module is -20 to 70 degree C. Only the embedded PCB antenna is allowed. Any other external antenna is prohibited. - Fa'atapula'a faiga fa'avae
N/A - Su'e le mamanu antenna
N/A - Fa'aaliga fa'aalia RF
O lenei masini e fa'amalieina fa'atapula'a fa'aaliga fa'avevela FCC RF ua fa'ata'atia mo se si'osi'omaga le pulea. O le masini e faʻapipiʻi ma faʻaogaina e aunoa ma se faʻatapulaʻaina. - Antenna
Antenna type :PCB Antenna; Antenna Max. Peak Gain - Fa'ailoga ma fa'amatalaga tausisia
When the module is installed in the host device, the FCC ID label must be visible through a window on the final device or it must be visible when an access panel, door or cover is easily re-moved. If not, a second label must be placed on the outside of the final device that contains the following text: “Contains FCC ID: 2AUIE-FSBTF5
E mafai ona fa'aoga le FCC ID pe a ausia uma mana'oga FCC ID. - Fa'amatalaga i faiga su'ega ma mana'oga fa'aopoopo mo su'ega
- The modular transmitter has been fully tested by the module grantee on the required number of channels ,modulation types, and modes, it should not be necessary for the host installer to re-test all the available transmitter modes or settings. It is recommended that the host product manufacturer, installing the modular transmitter, perform some investigative measurements to confirm that the resulting composite system does not exceed the spurious emissions limits or band edge limits (e.g., where a different antenna may be causing additional emissions).
- O le su'ega e tatau ona siaki mo mea e mafai ona tupu ona o le fefiloi o mea fa'aoso ma isi transmitters, fa'asologa numera, po'o mea fa'aletino o le oloa talimalo (fa'alavelave). O lenei suʻesuʻega e sili ona taua pe a tuʻufaʻatasia le tele o transmitters modular lea e faʻavae ai le tusipasi i le suʻeina o latou taʻitasi i se faʻatulagaga tutoʻatasi. E taua le maitauina e le tatau i tagata gaosi oloa talimalo ona manatu e faapea ona o le transmitter modular ua faʻamaonia e leai so latou tiute mo le tausisia o oloa mulimuli.
- Afai o le suʻesuʻega e faʻaalia ai se popolega o le tausisia e le kamupani gaosi oloa talimalo e tatau ona faʻaitiitia le mataupu. O oloa fa'afeiloa'i e fa'aogaina ai le fa'aogaina fa'apitoa e fa'atatau i tulafono fa'apitoa fa'apitoa ta'ito'atasi fa'apea ma tu'utu'uga lautele o le fa'agaioiga i Vaega 15.5, 15.15, ma le 15.29 ina ia aua ne'i fa'alavelave. O le tagata fa'afoe o le oloa talimalo o le a tatau ona taofi le fa'aogaina o le masini se'i vagana ua fa'asa'o le fa'alavelave.
- Su'ega fa'aopoopo, Vaega 15 Vaega XNUMX Fa'ailoga B
The final host / module combination need to be evaluated against the FCC Part 15B criteria for unintentional radiators in order to be properly authorized for operation as a Part15 digital device. The host integrator installing this module into their product must ensure that the final composite product complies with the FCC requirements by a technical assessment or evaluation to the FCC rules ,including the transmitter operation and should refer to guidance in KDB 996369. For host products with certified modular transmitter, the frequency range of investigation of the composite system is specified by rule in Sections 15.33(a)(1) through (a)(3), or the range applicable to the digital device, as shown in Section 15.33(b)(1), whichever is the higher frequency range of investigation. When testing the host product, all the transmitters must be operating. The transmitters can be enabled by using publicly available drivers and turned on, so the transmitters are active. In certain conditions it might be appropriate to use a technology-specific call box (test set) where accessory devices or drivers are not available. When testing for emissions from the unintentional radiator, the transmitter shall be placed in the receive mode or idle mode, if possible. If receive mode only is not possible then, the radio shall be passive (preferred) and/or active scanning. In these cases, this would need to enable activity on the communication BUS (i.e., PCIe, SDIO, USB) to ensure the unintentional radiator circuitry is enabled.
Testing laboratories may need to add attenuation or filters depending on the signal strength of any active beacons (if applicable) from the enabled radio(s). See ANSI C63.4, ANSI C63.10 for further general testing details.
- Fa'ailoga Fa'ai'uga o Oloa
The final end product must be labeled in a visible area with the following: Contains IC:34271-FSBTF5. - Fa'amatalaga Tusia i le Tagata Fa'ai'uga
E tatau ona nofouta le OEM tu'ufa'atasia e aua ne'i tu'uina atu fa'amatalaga i le tagata fa'au'u e fa'atatau i le fa'apipi'iina pe aveese lea o lenei RF module i le tusi lesona a le tagata fa'aoga o le oloa fa'ai'uga e tu'ufa'atasia ai lenei module.
O le tusi lesona fa'ai'uga e tatau ona aofia uma ai fa'amatalaga fa'atonutonu/lapataiga e pei ona fa'aalia i lenei tusi lesona.
FAQ
What is the FS-BT-F5 module?
The FS-BT-F5 is a Bluetooth dual-mode transmitter module supporting Bluetooth 5.1+BR+EDR+BLE specifications.
What are the typical applications for the FS-BT-F5?
It is used in fitness accessories, smart home products, and industrial control equipment.
What are the electrical specifications?
The module operates at 3 to 5V DC and supports various serial port voltags ma le vevela.
How should the module be installed?
Avoid metal near the RF section and follow layout suggestions for optimal performance.
Pepa / Punaoa
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FitShow FSBTF5 Bluetooth Module [pdf] Taiala mo Tagata Fa'aoga 2AUIE-FSBTF5, 2AUIEFSBTF5, fsbtf5, FSBTF5 Bluetooth Module, FSBTF5, Bluetooth Module, Module |