Bluetooth Module Datasheet Model No.:TBM-QCC307 VersionV1.0 Release Date: 2016-03-08 TONLY ELECTRONICS HOLDINGS LIMITED. Address:Section 37, Zhongkai Hi-tech Development Zone, Huizhou Guangdong 516006, P.R.China 6 37 http://www.tonlyele.com 2015 TONLY ELECTRONICS HOLDINGS LIMITED.All rights reserved Legal Notice, Disclaimer, Copyright
,
;
. This data sheet contains information that is confidential to TONLY ELECTRONICS HOLDINGS LIMITED. Unauthorized use or disclosure of the information contained herein is prohibited. You may be held responsible for any loss or damages suffered by TONLY ELECTRONICS HOLDINGS LIMITED .for your unauthorized disclosure hereof, in whole or in part. Information herein is subject to change without noticed. TONLY ELECTRONICS HOLDINGS LIMITED does not assume any responsibility for any use of, or reliance on, the information contained herein THIS DATA SHEET AND ALL INFORMATION CONTAINED HEREIN IS PROVIDED AS IS WITHOUT WARRANTY OF ANY KIND, WHETHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE. TONLY ELECTRONICS HOLDINGS LIMITED. SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF MERCHANTABILITY, NON-INFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE. NEITHER DOES TONLY ELECTRONICS HOLDINGS LIMITED. PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR SUPPLIED WITH THIS DATA SHEET, AND USER AGREES TO LOOK ONLY TO SUCH THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. TONLY ELECTRONICS HOLDINGS LIMITED. SHALL ALSO NOT BE RESPONSIBLE FOR ANY TONLY ELECTRONICS HOLDINGS LIMITED DELIBERABLES MADE TO USERS SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM. Tonlyis a trademark of TONLY ELECTRONICS HOLDINGS LIMITED. other names mentioned in this document are trademarks/registered trademark of their respective owners. This data shall be executed in two languages including one Chinese and one English. Any conflict exist between the two languages, theChinese will prevail in any time. TBM-QCC307 Bluetooth Module Datasheet Document Revision History Revision Date Author Checked by Description V1.0 2018-8-18 huangzisheng liweixiong First release. 3 TONLY ELECTRONICS HOLDINGS LIMITED Confidential Table of Contents Legal Notice, Disclaimer, Copyright Document Revision History Table of contents 1. System overview 1.1 General Descriptions 1.2 Features 1.3 Block Diagram 2. Production Description Pin Layout & Pin Description Appearance& Dimension 3. Application Explanation 4. Electrical Characteristics DC characteristics Thermal characteristics Current consumption 5. RF Performance 6. Certificate& Regulation 7. Package& Ordering information 8. Green Policy 9 RECOMMENDED TEMPERATURE REFLOW PROFILE 10. ESD Protection TBM-QCC307 Bluetooth Module Datasheet 1. System overview 1.1 General Descriptions The QCC3007 module is a single-chip flash programmable dual mode Bluetooth v5.0 device with integrated application processor, low-power audio DSP, on-chip ROM and RAM, stereo codec, battery charger, switch-mode and linearregulators, and LED drivers. 1.2 Features Bluetooth v5.0 specification compliant Multipoint support for A2DP connection to 2A2DP sources for music playback Stereo line-in True Wireless Stereo (TWS) Low Power Consumption Supported Bluetooth ProfilesA2DP v1.3.1 , AVRCP v1.6,HFP v1.7, GAIA, EQs. 1.3 Block Diagram 2. Production Description Apperance & Pin Description& Physical Dimensions Description & Apperance:
5 TONLY ELECTRONICS HOLDINGS LIMITED Confidential Physical Dimensions Pin descriptions Symbol Description Function GND Power supply and control Ground connections. PIN NO. 1 18 19 21 TBM-QCC307 Bluetooth Module Datasheet 25 30 33 37 47 58 2 AIO0 Bi-directional with programmable Analogue Programmable analog I/O. I/O A CMOS output with a weak internal pull-up. This pin can be used to implement RS232 hardware flow control where RTS (request to send) is an active low indicator. The UART interface requires an external RS232 transceiver chip. UART request to send, active low Alternative function:
PIO16: Programmable input
/ output line 16. Bidirectional with strong pull-up A CMOS input with a weak UART clear to send, active internal pull-down. This pin can low;
be used to implement RS232 Alternative function:
hardware flow control where PIO17: Programmable input CTS (clear to send) is an active
/ output line 17.Bidirectional low indicator. The UART with strong pull-down. interface requires an external Bidirectional with strong RS232 transceiver chip. pull-down 5 UART_RTS 6 UART_CTS 34 78 9 NC Leave unconnected NC 10 11 Configurated PCM/I2S digital audio interfa-ce shares the same physical set of pins with the SPI interface. SPI_PCM# is a CMOS input with a weak internal pull-
SPI/PCM select input:
12 SPI_PCM#
down. When inputs HIGH level, this 0 = PCM/PIO interface 1 = SPI set of pins is used For SPI interface. When inputs LOW level, this set of pins is used for PCM/PIO/I2S interface. 14 SPI_MISO Programmable I/O line or debug SPI data output 7 TONLY ELECTRONICS HOLDINGS LIMITED Confidential SPI MISO selected by SPI_PIO#. Programmable I/O line or debug 15 SPI_MOSI SPI SPI data output MOSI selected by SPI_PIO#. Programmable I/O line or debug 16 SPI_CLK SPI SPI CLOCK CLK selected by SPI_PIO#. Programmable I/O line or debug 17 SPI_CSB SPI chip select (CSB) selected by chip select for SPI, active low 20 RESET SPI_PIO#. The RESET pin is an active high reset and is internally filter educing the internal low frequency clock oscillator .A reset will be performed between1.5 and 4.0ms following RESET being active. Reset if low. Pull low for minimum 5ms to cause a reset. Programmable 22 LED_1 Bidirectional Input/Output Line & LED driver Programmable 23 LED_0 Bidirectional Input/Output Line & LED driver Regulator enable input. Can also be sensed as an input. Regulator enable and 24 POWER_VRE G Enable pin for the internal 1.8V multifunction button. A high regulator, This pin is only available input
(tolerant to VBAT) with production version enables the on-chip regulators, which can then be latched on internally and the button used as a multifunction input. Charger input. 26 VBUS Power supply and control Typically connected to VBUS
(USB supply) External battery charger control. 27 CHG_EXT Power supply and control External battery charger transistor base control when using external charger TBM-QCC307 Bluetooth Module Datasheet 28 VBAT_SENSE Power supply and control Connect directly to the boost. Otherwise leave unconnected. Battery charger sense input. 29 VBAT Input for an internal 1.8V switched mode regulator combined with output of the internal battery charger. 31 1.8V_OUT Power supply and control 32 VDD_IO Power supply and control battery positive pin. Battery charger input 1.8V DC/DC convertor output. Positive supply input for input/output ports. 3.3V bypass linear regulator 33 3V3_OUT Power supply and control output. Also supply for USB port. Abi-directional USB data line with a selectable internal 1.5k pull-up implemented as a current source
(compliant with USB 35 USB_DN specification v2.0) An USB data minus. external series resistor is required to match the connection to the characteristic impedance of the USB cable. A bi-directional USB data line. An external series resistor is required to USB data plus with 36 USB_PN match the connection to the selectable internal 1.5k 38 39 40 41 42 43 44 45 PIO_9 PIO_0 PIO_1 PIO_8 PIO_7 PIO_6 PIO_21 PIO_18 characteristic impedance of the USB pull-up resistor. cable. programmable analog I/O. Programmable I/O. programmable analog I/O. Programmable I/O. programmable analog I/O. Programmable I/O. programmable analog I/O. Programmable I/O. programmable analog I/O. Programmable I/O. programmable analog I/O. Programmable I/O. programmable analog I/O. Programmable I/O. programmable analog I/O. Programmable I/O. 46 LED_2 Bidirectional Programmable input
/
output line & LED driver. 9 TONLY ELECTRONICS HOLDINGS LIMITED Confidential BIAS Microphone bias Microphone bias 48 49 LINE_AN Analogue in 50 LINE_AP 51 LINE_BN 52 LINE_BP Analogue in 53 AGND Connect Analog Ground pins 54 SPK_RN 55 SPK_RP Analogue out 56 57 SPK_LN Analogue out SPK_LP 59 RF This pin can be used when not using a chip antenna or connector of the module. Line or microphone input negative, channel A Line or microphone input positive, channel A Line or microphone input negative, channel B Line or microphone input positive, channel B Analogue Ground connections. Speaker output negative, right Speaker output positive, right Speaker output negative, left Speaker output positive, left Bluetooth 50 transmitter output /
receiver input 3. Application Explanations Bluetooth stereo speakers Speakerphones 4. Electrical Characteristics Base Characteristics ELECTRICAL CHARACTERISTICS Supply Voltage 1.8 3.6V DC
(Absolute Maximum Ratings1.8-4.2V) Working current Depends on profiles, 13mA (A2DP) Standby current(disconnected) WEIGHT AND DIMENSIONS Size (L x W x H) Weight Recommended operating conditions 1.05mA~3.1mA
(unit : mm) 21*13.5*1.5 mm 0.9g Min Max Unit TBM-QCC307 Bluetooth Module Datasheet Operating temperature VDD_IO VDD_BAT VDD_CHG Terminal voltages
-40 1.7 2.8 0 0 85 3.6 4.4 5.5 VDD C V V V V Battery charger Item Input Voltage Charge Current(CC mode) Trickle Charge Current Trickle Charge Threshold Voltage Regulated Output(Float)Voltage Min Type Max Unit 4.5 194 5 200 10 2.92 4.2 5.75 206 V mA mA V V Unit Stereo CODEC Analogue to Digital Converter Parameter Resolution Input Sample Rate, Fsample Signal to Noise Ratio, SNR Conditions fin=1kHz B/W=20Hz20kHz A-Weighted THD+N<0.1%
1.6Vpk-pkinput Fsample 8kHz 16kHz 32kHz 44.1kHz 44.1kHz Digital Gain Digital Gain Resolution=1/32 Analogue Gain Analogue Gain Resolution=3dB Maximum ADC Input 3dBBandwidth Signal Amplitude Min Typ Max
-
8 16 Bits 48
-
-
kHz
-
-
-
-
-
-24
-3 13
-
95.3 93.8 94.2 92.4 91.8
-
-
2260 20 dB dB dB
-
-
-
-
-
dB dB 21.5 dB 42 dB
-
-
mVrms kHz Parameter Resolution Input Sample Rate,Fsample Signal to Noise Ratio, SNR Stereo CODEC Digital to Analog Converter Conditions fin=1kHz B/W=20Hz20kHz A-Weighted THD+N<1%
0dBFSinput Fsample 48KHz Load=100K Min
-
Typ Max Unit
-
16 Bits 8
-
96 kHz 95.6
-
dB
-
Digital Gain Digital Gain Resolution=1/32
-24
-
21.5 dB 11 TONLY ELECTRONICS HOLDINGS LIMITED Confidential 0 dB 778 mVrms 0.003
%
0.0032 %
4 Analogue Gain Analogue Gain Resolution=3dB Output voltage full scale swing(differential) THD+N100k load THD+N16 load
-21
-
-
-
-
-
-
-
5. RF Performance Specification RF performance Standard Frequency Band Modulation Method Maximum Data Rate Antenna Interface Operation Range Sensitivity RF TX Power 6. Certification& Regulation The BQB Certification Description Bluetooth 5.0 2.402~ 2.48GHz GFSK4/DQPSK;8DQPSK 1 Mbps/2 Mbps/3 Mbps External antenna UART, PIO, AIO, SPI,PCM,SPI
>=10 meters(Free Space)
-86dBm at 0.1% BER
<=+10dBm 7. Package & Ordering Information Assembly 60Pcs per every Blister tray TBM-QCC307 Bluetooth Module Datasheet 600Pcs per every Vacuum packing 8. Green Policy This module can meet ROHS&REACH compliance.XXXX 9. RECOMMENDED TEMPERATURE REFLOW PROFILE The soldering profile depends on various parameters necessitating a set up for each application. The data here is given only for guidance on solder re-flow. There are four zones:
1. Preheat Zone - This zone raises the temperature at a controlled rate, typically 1-2.5C/s. 2. Equilibrium Zone - This zone brings the board to a uniform temperature and also activates the flux. The duration in this zone (typically 2-3 minutes) will need to be adjusted to optimize the out gassing of the flux. 3. Reflow Zone - The peak temperature should be high enough to achieve good wetting but not so high as to cause component discoloration or damage. Excessive soldering time can lead to inter metallic growth which can result in a brittle joint. 4. Cooling Zone - The cooling rate should be fast, to keep the solder grains small which will give a longer lasting joint. Typical rates will be 2-5C/s. 13 TONLY ELECTRONICS HOLDINGS LIMITED Confidential Key features of the profile:
Initial ramp = 1-2.5C/sec to 175C 25C equilibrium Equilibrium time = 60 to 180 seconds Ramp to maximum temperature (245C) = 3C/sec max. Time above liquidus temperature (217C): 45-90 seconds Device absolute maximum reflow temperature: 260C 10. ESD Protection
-------------------------END--------------------------
For FCC:
Warning: Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. NOTE: 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. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. The device must not be co-located or operating in conjunction with any other antenna or transmitter. FCC RF Radiation Exposure Statement Caution: To maintain compliance with the FCCs RF exposure guidelines, place the product at least 20cm from nearby persons. FCC Conditions This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
1.This device may not cause harmful interference. 2.This device must accept any interference received, including interference that may cause undesired operation.