TUYA 2ANDL-BP2S Bluetooth Module Owner’s Manual

TUYA 2ANDL-BP2S Bluetooth Module

Overview
The BP2S module is built around a 32-bit MCU with 512 KB flash memory and 64 KB SRAM. It has 8 GPIOs. The embedded 2.4 GHz transceiver supports Bluetooth low energy (LE) 5.1.

Features

• Built-in low-power 32-bit MCU that also acts as an application processor.
• Operating voltage range: 1.8V to 3.6V
• Peripherals: five pulse-width modulators (PWMs), one analog-to-digital converter (ADC) pin, and one universal asynchronous receiver/transmitter (UART) pin.
• Bluetooth LE radio frequency (RF) features
  • Bluetooth LE 5.1
  • RF data rate of up to 1 Mbit/s
  • Transmitter (TX) power: +8 dBm
  • Receiver (RX) sensitivity: -97 dBm@Bluetooth LE 1 Mbit/s
  • Embedded hardware Advanced Encryption Standard (AES) encryption
  • Onboard PCB antenna with a gain of 0.57 dBi
  • Operating temperature range: -20°C to +85°C.

Applications

• Smart LED
• Smart home

Module interfaces

Dimensions and footprint
BP2S has two rows of pins with a 2 mm pin spacing.
Dimensions: 15±0.35 mm (W) × 18±0.35 mm (L) × 2.8±0.15 mm (H). The following figure shows the dimensions of the BP2S module.

Pin definition
The following table lists the pin definitions.

corresponding to

 |  |  | P10 on the IC. This
 |  |  | pin can be used as
 |  |  | a GPIO pin.
6| P32| I/O| GPIO pin,
 |  |  | corresponding to
 |  |  | P32 on the IC. This
 |  |  | pin can be used as
 |  |  | PWM output for
 |  |  | the LED driver.
7| TXD| I/O| Serial transmitter
 |  |  | pin UART1_TX,

corresponding to

 |  |  | P9 on the IC. This
 |  |  | pin can be used as
 |  |  | a GPIO pin.
No.| Symbol| I/O type| Description
---|---|---|---
8| P11| I/O| 12-bit ADC pin,
 |  |  | corresponding to
 |  |  | P11 on the IC. This
 |  |  | pin can be used as
 |  |  | a GPIO pin.
9| P31| I/O| GPIO pin,
 |  |  | corresponding to
 |  |  | P31 on the IC. This
 |  |  | pin can be used as
 |  |  | PWM output for
 |  |  | the LED driver.
10| RST| I/O| Reset pin,
 |  |  | corresponding to
 |  |  | RESET_N on the IC.

It is active when

 |  |  | pulled down.
11| P26| I/O| GPIO pin,
 |  |  | corresponding to
 |  |  | P26 on the IC. This
 |  |  | pin can be used as
 |  |  | PWM output for
 |  |  | the LED driver.
Test pin| TM| I| Mode selection
 |  |  | pin. This pin is
 |  |  | pulled up in
 |  |  | flashing mode,
 |  |  | and pulled down
 |  |  | or left floating in
 |  |  | other working
 |  |  | states.

info

• P indicates the power pin, and I/O indicates the input and output pin.
• If you have requirements for the color of PWM output control, please contact Tuya’s business personnel.

Electrical parameters

Absolute electrical parameters

Minimum Parameter            Description         value| Maximum value|

Unit

---|---|---
 |  |
Ts                          Storage                 -40| 125| °C
temperature|  |
VCC                       Supply                    -0.3| 3.9| V
voltage|  |
Electrostatic          TAMB -25°C          –| 2| kV
discharge|  |
voltage|  |
(human body|  |
model)|  |
Electrostatic          TAMB -25°C          –| 0.5| kV
discharge|  |
voltage|  |
(machine|  |
model)|  |

Operating conditions

Minimum                         Typical| Maximum|
---|---|---
Parameter      Description    value                         value| value| Unit
 |  |
Ta                     Operating         -20                    –| 85| °C
tempera-|  |
ture|  |
VCC                 Operating         1.8                     3.3| 3.6| V
voltage|  |
VIL                    I/O                    VSS                   –| VCC × 0.3| V
low-level|  |
input|  |

Parameter

|

Description

| Minimum value| Typical value| Maximum value|

Unit

---|---|---|---|---|---
VIH| I/O| VCC × 0.7| –| VCC| V
 | high-level|  |  |  |
 | input|  |  |  |
VOL| I/O| VSS| –| VCC × 0.1| V
 | low-level|  |  |  |
 | output|  |  |  |
VOH| I/O| VCC × 0.9| –| VCC| V
 | high-level|  |  |  |
 | output|  |  |  |

Power consumption in working mode

RF parameters

Basic RF features

Parameter                         Description
Operating frequency           2.4 GHz ISM band
Wireless standard                Bluetooth LE 5.1
Data transmission rate        1 Mbit/s
Antenna type                        Onboard PCB antenna

RF output power

Parameter

| Minimum value|

Typical value

| Maximum value|

Unit

---|---|---|---|---
 |  |  |  |
RF average

output power

| -20| 8| 10| dBm
Bandwidth of 20 dB

modulation signal (1

Mbit/s)

| –| 2500| –| KHz

RF receiver (RX) sensitivity

Parameter

| Minimum value|

Typical value

| Maximum value|

Unit

---|---|---|---|---
 |  |  |  |
RX sensitivity at 1 Mbit/s| –| -97| –| dBm
Frequency

offset error at 1 Mbit/s

| -250| –| +300| KHz

Parameter

| Minimum value|

Typical value

| Maximum value|

Unit

---|---|---|---|---
 |  |  |  |
Co-channel interference suppression| –| -10| –| dB
 |  |  |  |

Antenna information

Antenna type
Onboard PCB antenna with a gain of 0.57 dBi

Antenna interference reduction
The distance between the antenna and other metal components should be at least 15 mm to provide the best radio performance. If metal materials wrap the sur- rounding of the antenna, the wireless signal will be greatly attenuated, thereby de-teriorating the RF performance. Allow enough space to support the RF layout when designing your product.

Packing and production instructions

Mechanical dimensions
PCB dimensions: 15±0.35 mm (W) × 18±0.35 mm (L) × 0.8±0.1 mm (H). The figure below shows the mechanical dimensions of BP2S.

The default tolerance of the dimensions is ±0.35 mm. If you have special re- quirements for key dimensions, specify them in the datasheet after consulta- tions.

Recommended PCB footprint
The figure below shows the pins of the BP2S schematic diagram:

The figure below shows the PCB footprint of the BP2S module:

Production instructions

1. For the modules that can be packaged with the surface-mount technology (SMT) or in in-line form, you can select either of them according to the PCB design solutions of customers. If a PCB is designed to be SMT-packaged, pack-age the module with the SMT. If a PCB is designed to use an in-line package, use wave soldering. Complete soldering within 24 hours after the module is unpacked. Otherwise, we recommend that you place the module in a drying cupboard with a relative humidity level below 10%, or pack the module in vac-uum again. Then, record the packing time and duration of exposure. The total exposure time cannot exceed 168 hours.

   • Instruments or devices required for the SMT process:
     – Surface mount system
     – SPI
     – Reflow soldering machine
     – Thermal profiler
     – AOI

   • Instruments or devices required for the wave soldering process:
     – Wave soldering equipment
     – Wave soldering fixture
     – Constant-temperature soldering iron
     – Tin bar, tin wire, and flux
     – Thermal profiler

   • Instruments or devices required for the baking process:
     – Cabinet oven
     – Electro-static discharge (ESD) protection and heat-resistant trays
     – ESD protection and heat-resistant gloves

2. A delivered module must meet the following storage requirements:

   • The moisture-proof bag must be placed in an environment where the tem-perature is below 40°C and the relative humidity is lower than 90%.
   • The shelf life of a dry-packaged product is 12 months from the date when the product is packaged and sealed.
   • A humidity indicator card (HIC) is put in the sealed package.

3. The module needs to be baked in the following cases:
   • The vacuum packaging bag is damaged before unpacking.
   • After unpacking, no HIC is found in the packaging bag.
   • After unpacking, the HIC indicates a humidity level of 10% or higher. In this case, the circle turns pink on the HIC.
   • The total exposure time has lasted for over 168 hours since unpacking.
   • More than 12 months have passed since the first sealing of the bag.

4. The baking parameter settings are described below:
   • Baking temperature: 40°C for reel packaging with relative humidity ≤ 5%. And 125°C for tray packaging with relative humidity ≤ 5% (use a heat-resistant tray, rather than plastic containers).
   • Baking time: 168 hours for reel packaging and 12 hours for tray packaging.
   • Temperature for triggering an alert: 50°C for reel packaging and 135°C for tray packaging.
   • Production can begin after a module has cooled down to below 36°C under natural conditions.
   • If a module remains unused for over 168 hours after being baked, it needs to be baked again.
   • If a batch of modules is not baked after exposure for more than 168 hours, do not use wave soldering to solder them. Because these modules are level-3 moisture-sensitive devices, they are very likely to get damp when exposed beyond the allowable time. In this case, if they are soldered at high temperatures, device failure or poor soldering performance might occur.

5. In the whole production process, take electrostatic discharge (ESD) protective measures.

6. To guarantee the pass rate, we recommend that you use the SPI and AOI to monitor the quality of solder paste printing and mounting.

Recommended oven temperature curve
Select a proper soldering technique according to the process. For more informa-tion, refer to the recommended oven temperature curve of either reflow soldering or wave soldering. The set temperatures might deviate from the actual temperature measurements. All temperatures shown in this module datasheet are obtained through actual measurements.

Technique 1: SMT process (recommended oven temperature curve of re-flow soldering)
Set the oven temperatures according to the following curve.

• A: temperature axis
• B: time axis
• C: alloy liquidus temperature from 217°C to 220°C
• D: ramp-up slope from 1°C/s to 3°C/s
• E: keep a constant temperature from 150°C to 200°C for a time period of 60s to 120s
• F: temperature above liquidus temperature for 50s to 70s
• G: peak temperature from 235°C to 245°C
• H: ramp-down slope from 1°C/s to 4°C/s

info
The curve above is based on solder paste SAC305. For more information about other solder pastes, see the recommended oven temperature curve in the specified solder paste specifications.

Technique 2: Wave soldering process (oven temperature curve of wave soldering)
Set the oven temperatures according to the following temperature curve of wave soldering. The peak temperature is 260°C±5°C.

Suggestions on wave soldering

|  | Suggestions on manual repair soldering|
---|---|---|---
 |  |  |
Preheat temperature| 80°C to 130°C| Soldering temperature| 360°C ± 20°C
Preheat duration| 75s to 100s| Soldering duration| Less than 3s/point
Contact duration at the peak| 3s to 5s| N/A| N/A
Solder tank temperature| 260°C ± 5°C| N/A| N/A
Ramp-up slope| ≤ 2°C/s| N/A| N/A
Ramp-down slope| ≤ 6°C/s| N/A| N/A

Storage conditions

MOQ and packaging information

Appendix: Statement

FCC Caution : Any changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate this device.
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, and (2) this device must accept any interference received, including interference that may cause undesired operation.

Note : This device has been tested and found to comply with the limits for a Class B digital device, according to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This device generates, uses, and can radiate radio frequency energy and, if not installed and used following 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 device does cause harmful interference to radio or television reception, which can be determined by turning the device 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 device and receiver.
• Connect the device to 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.

Radiation Exposure Statement
This device complies with FCC radiation exposure limits set forth for an uncontrolled rolled environment. This device should be installed and operated with a minimum distance of 20cm between the radiator and your body.

Important Note
This radio module must not be installed to co-locate and operate simultaneously with other radios in the host system except following FCC multi-transmitter product procedures. Additional testing and device authorization may be required to operate simultaneously with other radios.

The availability of some specific channels and/or operational frequency bands are country dependent and are firmware programmed at the factory to match the intended destination. The firmware setting is not accessible by the end-user.

The host product manufacturer is responsible for compliance with any other FCC rules that apply to the host not covered by the modular transmitter grant of certification. The final host product still requires Part 15 Subpart B compliance testing with the modular transmitter installed.

The end-user manual shall include all required regulatory information/warnings as shown in this manual, including “This product must be installed and operated with a minimum distance of 20 cm between the radiator and user body”.
This device has got an FCC ID: 2ANDL-BP2S. The end product must be labeled in a visible area with the following: “Contains Transmitter Module FCC ID: 2ANDL- BP2S” .

This device is intended only for OEM integrators under the following conditions:

The antenna must be installed such that 20cm is maintained between the antenna and users, and the transmitter module may not be co-located with any other trans-mitter or antenna.
As long as the 2 conditions above are met, further transmitter tests will not be required. However, the OEM integrator is still responsible for testing their end product for any additional compliance requirements required with this module installed.

Declaration of Conformity European Notice
Hereby, Hangzhou Tuya Information Technology Co., Ltd declares that this module product is in compliance with essential requirements and other relevant provisions of Directive 2014/53/EU,2011/65/EU. A copy of the Declaration of conformity can be found at https://www.tuya.com

This product must not be disposed of as normal household waste, in accordance with the EU directive for waste electrical and electronic equipment (WEEE-2012/19/EU). Instead, it should be disposed of by returning it to the point of sale, or to a municipal recycling collection point.
The device could be used with a separation distance of 20cm to the human body.

References

• Tuya Smart - Global IoT Developer Service Provider

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