Chongqing Jinou Science and Technology Development JO-BLE02 JO Bluetooth Low Energy Module (BLE) User Manual manual

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Chongqing Jinou Science & Technology Development Co., Ltd
JO-BLE02
JO Bluetooth Low
Energy Module
（ BLE）
Hardware
Datasheet
Rev 1.1
Chongqing JINOU Science and Technology Development Co., Ltd.
Chongqing Jinou Science & Technology Development Co., Ltd
Contents
1.
2.
3.
4.
5.
Features............................................................................................................................... 2
Product Description ......................................................................................................... 3
Applications .......................................................................................................................... 3
Block Diagram ...................................................................................................................... 4
Pin Descriptions ............................................................................................................... 4
5.1 Device Terminal ........................................................................................................... 4
5.2 Device Terminal Functions ....................................................................................... 4
6.
Electrical Specifications ........................................................................................................ 5
6.1 ABSOLUTE MAXIMUM RATINGS ......................................................................................... 5
6.2 RECOMMENDED OPERATING CONDITIONS ......................................................................... 6
6.3 ELECTRICAL CHARACTERISTICS ..................................................................................... 6
6.4 GENERAL CHARACTERISTICS ........................................................................................... 6
6.6 RF RECEIVE SECTION ..................................................................................................... 7
6.7 RF TRANSMIT SECTION ................................................................................................... 7
6.8 ANALOG TEMPERATURE SENSOR ....................................................................................... 8
6.9 ADC CHARACTERISTICS ................................................................................................... 8
6.10 DC CHARACTERISTICS ................................................................................................. 10
7.
BLOCK DESCRIPTION .................................................................................................... 11
8.
Solder Profiles ..................................................................................................................... 13
9.
Physical Dimensions ........................................................................................................... 14
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Chongqing Jinou Science & Technology Development Co., Ltd
Document History
Revision
1.0
1.1
Date
2012-05-25
2014-11-07
Change Reason
Original publication of this document.
Updates include:
increase the length of module.
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Chongqing Jinou Science & Technology Development Co., Ltd
JO-BLE02
1. Features
· True Single-Chip BLE Solution: CC2540 Can Run Both Application and BLE Protocol Stack,
Includes Peripherals to Interface With Wide Range of Sensors ,Etc.
· Programmable Output Power Up to 4.5 dBm
· IR Generation Circuitry
· Powerful Five-Channel DMA
· 12-Bit ADC With Eight Channels and Configurable Resolution
· Two Powerful USARTs With Support for Several Serial Protocols
· 19 General-Purpose I/O Pins
· Low Power Mode:
Active Mode RX Down to 19.6 mA
Active Mode TX (-6dBm)：24 mA
Power Mode 1 (3-ms Wake-Up): 235 uA
Power Mode 2 (Sleep Timer On): 0.9 uA
Power Mode 3 (External Interrupts): 0.4 uA
· Wide Supply-Voltage Range (2 V–3.6 V)
Full RAM and Register Retention in All Power Modes
· Nominal Supply Voltage at 3.3±0.1V
· Surface-mount, Size: 24.1×14.5 （unit：mm
error = ±0.2mm）
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Chongqing Jinou Science & Technology Development Co., Ltd
2. Product Description
The JO-BLE02 module (chip CC2540) is a cost-effective, low-power, true
system-on-chip (SoC) for Bluetooth low energy applications. It enables
robust BLE master or slave nodes to be built with very low total
bill-of-material costs. The CC2540 combines an excellent RF transceiver
with an industry-standard enhanced 8051 MCU, in-system programmable flash
memory, 8-KB RAM, and many other powerful supporting features and
peripherals. The CC2540 is suitable for systems where very low power
consumption is required. Very low-power sleep modes are available. Short
transition times between operating modes further enable low power
consumption.
The CC2540 comes in two different versions: CC2540F128/F256, with 128 and
256 KB of flash memory, respectively.
Combined with the Bluetooth low energy protocol stack from Texas
Instruments, the CC2540F128/F256 forms the market’s most flexible and
cost-effective single-mode Bluetooth low energy solution.
3. Applications
2.4-GHz Bluetooth low energy Systems
Mobile Phone Accessories
Sports and Leisure Equipment
Consumer Electronics
Human Interface Devices(Keyboard,Mouse,Remote Control)
USB Dongles
Health Care and Medical
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Chongqing Jinou Science & Technology Development Co., Ltd
4. Block
Diagram
5. Pin Descriptions
5.1
Device Terminal
No.
Des
Des
No.
P2_0
A0 | P0_0
24
P2_2 | DC
P0_1
23
P2_1 | DD
RX | P0_2
22
P1_7
TX | P0_3
21
P1_6
CT | P0_4
20
P1_3
RT | P0_5
19
P1_4
RST
18
P1_5
P0_6
17
USB_N
P0_7
16
10
USB_P
P1_0
15
11
VCC
P1_1
14
12
GND
P1_2
13
5.2
Device Terminal Functions
PIN
NAME
PIN
TYPE
DESCRIPTION
P2_0
Digital I/O
Port 2.0
P2_2 | DC
Digital I/O
Port 2.2
Debug Clock
Debug data interface
P2_1 | DD
Digital I/O
Port 2.1
Debug Data
Debug data interface
P1_7
Digital I/O
Port 1.7
P1_6
Digital I/O
Port 1.6
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Chongqing Jinou Science & Technology Development Co., Ltd
P1_3
Digital I/O
Port 1.3
P1_4
Digital I/O
Port 1.4
P1_5
Digital I/O
Port 1.5
USB_N
Digital I/O
USB N
10
USB_P
Digital I/O
USB P
11
Vcc
Power Supply
+3.3V Power Supply
12
GND
Ground
Connect to GND
13
P1-2
Digital I/O
Port 1.2
14
P1-1
Digital I/O
Port 1.1 20-mA drive capability
15
P1-0
Digital I/O
Port 1.0 20-mA drive capability
16
P0-7
Digital I/O
Port 0.7
17
P0-6
Digital I/O
Port 0.6
18
RST
Digital input
Reset, active-low
19
RT | P0_5
Digital O
UART request to send active low
Digital I/O
Port 0.5
20
CT | P0_4
Digital I
UART clear to send active low
Digital I/O
Port 0.4
21
TX | P0_3
Digital O
UART data output
Digital I/O
Port 0.3
22
RX | P0_2
Digital I
UART data input
Digital I/O
Port 0.2
23
P0_1
Digital I/O
Port 0.1
24
A0 | P0_0
Analog I
ADC
Digital I/O
Port 0.0
6. Electrical Specifications
6.1
ABSOLUTE MAXIMUM RATINGS
Supply voltage
All supply pins must have the same voltage
Voltage on any digital pin
MIN
MAX
UNIT
–0.3
3.9
–0.3
Input RF level
Storage temperature
–40
range
All pads, according to human-body model, JEDEC
ESD(2)
STD 22, method A114
According to charged-device model, JEDEC STD 22,
method C101
VDD + 0.3,
≤ 3.9
10
dBm
125
°C
kV
500
(1) Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the
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Chongqing Jinou Science & Technology Development Co., Ltd
device. These are stress ratings only, and functional operation of the device at these or any other
conditions beyond those indicated under Recommended Operating Conditions is not implied. Exposure
to absolute-maximum-rated conditions for extended periods may affect device reliability.
(2) CAUTION: ESD-sensitive device. Precautions should be used when handling the device in order to
prevent permanent damage.
6.2
RECOMMENDED OPERATING CONDITIONS
MIN
Operating ambient temperature range, TA
Operating supply voltage
6.3
MAX
UNIT
–40
125
°C
3.6
ELECTRICAL CHARACTERISTICS
Measured on Texas Instruments CC2540 EM reference design with TA = 25°C and VDD = 3 V
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
Power mode 1. Digital regulator on; 16-MHz RCOSC and
32-MHz crystal oscillator off; 32.768-kHz XOSC, POR, BOD
235
and sleep timer active; RAM and register retention
lcore
Core
Power mode 2. Digital regulator off; 16-MHz RCOSC and
current
32-MHz crystal oscillator off; 32.768-kHz XOSC, POR, and
consum
sleep timer active; RAM and register retention
ption
Power mode 3. Digital regulator off; no clocks; POR active;
uA
0.9
0.4
RAM and register retention
Low MCU activity: 32-MHz XOSC running. No radio or
6.7
peripherals. No flash access, no RAM access.
mA
Peripheral Current Consumption (Adds to core current Icore for each peripheral unit activated)
Iperi
Timer 1
Timer running, 32-MHz XOSC used
90
mA
Timer 2
Timer running, 32-MHz XOSC used
90
mA
Timer 3
Timer running, 32-MHz XOSC used
60
mA
Timer 4
Timer running, 32-MHz XOSC used
70
mA
Including 32.753-kHz RCOSC
0.6
mA
When converting
1.2
mA
Sleep
timer
ADC
6.4
GENERAL CHARACTERISTICS
Measured on Texas Instruments CC2540 EM reference design with TA = 25°C and VDD = 3 V
TEST CONDITIONS
MIN
TYP
MAX
UNIT
WAKE-UP AND TIMING
Power mode 1 → active
Digital regulator on, 16-MHz RCOSC and 32-MHz crystal
oscillator off. Start-up of 16-MHz RCOSC
Power mode 2 or 3 →
Digital regulator off, 16-MHz RCOSC and 32-MHz crystal
active
oscillator off. Start-up of regulator and 16-MHz RCOSC
Active → TX or RX
Crystal ESR = 16 Ω. Initially running on 16-MHz RCOSC,
with 32-MHz XOSC OFF
ms
120
ms
410
ms
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Chongqing Jinou Science & Technology Development Co., Ltd
160
With 32-MHz XOSC initially on
6.6
ms
RF RECEIVE SECTION
Measured on Texas Instruments CC2540 EM reference design with TA = 25°C, VDD = 3 V, fc = 2440 MHz
(1)
1 Mbps, GFSK, 250-kHz deviation, Bluetooth low energy mode, and 0.1% BER
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX
UNIT
Receiver sensitivity(2)
High-gain mode
–93
dBm
Receiver sensitivity(2)
Standard mode
–87
dBm
Saturation(3)
dBm
Co-channel rejection(3)
–5
dB
Adjacent-channel rejection(3)
±1 MHz
dB
Alternate-channel rejection(3)
±2 MHz
30
dB
–30
dBm
Blocking(3)
Frequency error tolerance(4)
Including both initial tolerance and drift
Symbol rate error
tolerance(5)
Spurious emission. Only
Conducted measurement with a 50-Ωsingle-ended
largest spurious emission
load. Complies with EN 300 328, EN 300 440 class
stated within each band.
2, FCC CFR47, Part 15 and ARIB STD-T-66
–250
250
kHz
–80
80
ppm
–75
RX mode, standard mode, no peripherals active, low
Current consumption
dBm
19.6
MCU activity, MCU at 250 kHz
mA
RX mode, high-gain mode, no peripherals active,
22.1
low MCU activity, MCU at 250 kHz
(1) 0.1% BER maps to 30.8% PER
(2) The receiver sensitivity setting is programmable using a TI BLE stack
vendor-specific API command. The default value is standard mode.
(3) Results based on standard gain mode
(4) Difference between center frequency of the received RF signal and local
oscillator frequency
(5) Difference between incoming symbol rate and the internally generated symbol
rate
6.7 RF TRANSMIT SECTION
Measured on Texas Instruments CC2540 EM reference design with TA = 25°C, VDD = 3 V and
fc = 2440 MHz
PARAMETER
TEST CONDITIONS
Delivered to a single-ended 50-Ωload through a balun using
Output power
maximum recommended output power setting
Delivered to a single-ended 50-Ωload through a balun using
minimum recommended output power setting
Programmable output
power range
Delivered to a single-ended 50 Ωload through a balun
MIN
TYP
MAX
UNIT
dBm
–20
24
dB
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Chongqing Jinou Science & Technology Development Co., Ltd
Conducted measurement with a 50-Ωsingle-ended load.
Spurious emissions
Complies with EN 300 328, EN 300 440 class 2, FCC
–41
dBm
CFR47, Part 15 and ARIB STD-T-66(1)
TX mode, –23-dBm output power, no peripherals active,
21.1
low MCU activity, MCU at 250 kHz
TX mode, –6-dBm output power, no peripherals active, low
23.8
MCU activity, MCU at 250 kHz
Current consumption
mA
TX mode, 0-dBm output power, no peripherals active, low
27
MCU activity, MCU at 250 kHz
TX mode, 4-dBm output power, no peripherals active, low
31.6
MCU activity, MCU at 250 kHz
Optimum load
Differential impedance as seen from the RF port (RF_P and
impedance
RF_N) toward the antenna
Ω
70 + j30
(1) Designs with antenna connectors that require conducted ETSI compliance at 64 MHz
should insert an LC resonator in front of the antenna connector. Use a 1.6-nH inductor in
parallel with a 1.8-pF capacitor. Connect both from the signal trace to a good RF ground
6.8
ANALOG TEMPERATURE SENSOR
Measured on Texas Instruments CC2540 EM reference design with TA = 25°C and VDD = 3 V
TEST CONDITIONS
MIN
Output at 25°C
TYP MAX
1480
12-bit ADC
4.5
/1°C
/0.1 V
±10
°C
±5
°C
0.5
mA
Temperature coefficient
Voltage coefficient
Initial accuracy without calibration
Accuracy using 1-point calibration
Measured using integrated ADC, using
internal bandgap voltage reference and
maximum resolution
(entire temperature range)
Current consumption when enabled
(ADC current not included)
6.9
UNIT
ADC CHARACTERISTICS
TA = 25°C and VDD = 3 V, unless otherwise noted.
PARAMETER
TEST CONDITIONS
MIN
Input voltage
VDD is voltage on AVDD5 pin
VDD is voltage on AVDD5 pin
External reference
voltage
TYP
MAX
UNIT
VDD
VDD
VDD
External
reference
VDD is voltage on
voltage
AVDD5 pin
differential
Input
Using 4-MHz
resistance,
clock speed
197
kΩ
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Chongqing Jinou Science & Technology Development Co., Ltd
signal
Full-scale signal(1)
Peak-to-peak, defines 0
dBFS
Single-ended input, 7-bit
setting
Single-ended input, 9-bit
setting
Single-ended input, 10-bit
setting
ENOB(1)
Effective number
Single-ended input, 12-bit
of bits
setting
Useful power
7-bit setting, both single and
bandwidth
differential
Single-ended input, 12-bit
Total harmonic
setting, –6 dBFS
distortion
Differential input, 12-bit
setting, –6 dBFS
Single-ended input, 12-bit
setting
ratio(1)
Differential input, 12-bit
setting
Single-ended input, 12-bit
setting, –6 dBFS
Differential input, 12-bit
setting, –6 dBFS
CMRR
Common-mode
rejection ratio
10.8
8.3
setting
nonharmonic
9.3
Differential input, 9-bit setting
Differential input, 12-bit
Signal to
7.5
6.5
setting
5.7
Differential input, 7-bit setting
Differential input, 10-bit
THD(1)
2.97
bits
10.0
11.5
0–20
kHz
–75.2
dB
–86.6
70.2
79.3
dB
78.8
88.9
Differential input, 12-bit
setting, 1-kHz sine (0 dBFS),
>84
dB
>84
dB
–3
mV
limited by ADC resolution
Single-ended input, 12-bit
Crosstalk
setting, 1-kHz sine (0 dBFS),
limited by ADC resolution
Offset
Midscale
Gain error
DNL(1)
INL(1)
SINAD(1)
0.68%
Differential
12-bit setting, mean
0.05
nonlinearity
12-bit setting, maximum
0.9
Integral
12-bit setting, mean
4.6
nonlinearity
12-bit setting, maximum
13.3
Signal-to-noise-an
Single-ended input, 7-bit
35.4
LSB
LSB
dB
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Chongqing Jinou Science & Technology Development Co., Ltd
(–THD+N)
d-distortion
setting
Single-ended input, 9-bit
46.8
setting
Single-ended input, 10-bit
57.5
setting
Single-ended input, 12-bit
66.6
setting
Differential input, 7-bit setting
40.7
Differential input, 9-bit setting
51.6
Differential input, 10-bit
61.8
setting
Differential input, 12-bit
70.8
setting
Conversion time
7-bit setting
20
9-bit setting
36
10-bit setting
68
12-bit setting
132
Power
consumption
Internal reference
voltage
Internal reference
VDD coefficient
ms
1.2
mA
1.15
mV/V
0.4
mV/10°C
Internal reference
temperature
coefficient
(1) Measured with 300-Hz sine-wave input and VDD as reference.
6.10 DC CHARACTERISTICS
TA = 25°C, VDD = 3 V, unless otherwise noted.
TEST CONDITIONS
MIN
TYP
Logic-0 input voltage
MAX
0.5
Logic-1 input voltage
2.5
Logic-0 input current
Input equals 0 V
Logic-1 input current
Input equals VDD
nA
50
-50
50
20
Logic-0 output voltage, 4-mA pins
Output load 4 mA
Logic-1 output voltage, 4-mA pins
Output load 4 mA
Logic-0 output voltage, 20-mA pins
Output load 20 mA
Logic-1 output voltage, 20-mA pins
Output load 20 mA
0.5
2.4
0.5
2.4
-50
I/O-pin pullup and pulldown resistors
UNIT
nA
kΩ
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7. BLOCK DESCRIPTION
CPU and Memory
The 8051 CPU core is a single-cycle 8051-compatible core. It has three different memory
access busses (SFR, DATA, and CODE/XDATA), a debug interface, and an 18-input
extended interrupt unit.
The memory arbiter is at the heart of the system, as it connects the CPU and DMA controller
with the physical memories and all peripherals through the SFR bus. The memory arbiter has
four memory-access points, access of which can map to one of three physical memories: an
SRAM, flash memory, and XREG/SFR registers. It is responsible for performing arbitration and
sequencing between simultaneous memory accesses to the same physical memory.
The SFR bus is drawn conceptually in Figure 8 as a common bus that connects all hardware
peripherals to the memory arbiter. The SFR bus in the block diagram also provides access to
the radio registers in the radio register bank, even though these are indeed mapped into
XDATA memory space.
The 8-KB SRAM maps to the DATA memory space and to parts of the XDATA memory
spaces. The SRAM is an ultralow-power SRAM that retains its contents even when the digital
part is powered off (power modes 2 and 3).
The 128/256 KB flash block provides in-circuit programmable non-volatile program memory
for the device, and maps into the CODE and XDATA memory spaces.
Peripherals
Writing to the flash block is performed through a flash controller that allows page-wise
erasure and 4-bytewise programming. See User Guide for details on the flash controller.
A versatile five-channel DMA controller is available in the system, accesses memory using
the XDATA memory space, and thus has access to all physical memories. Each channel
(trigger, priority, transfer mode, addressing mode, source and destination pointers, and
transfer count) is configured with DMA descriptors that can be located anywhere in memory.
Many of the hardware peripherals (AES core, flash controller, USARTs, timers, ADC interface,
etc.) can be used with the DMA controller for efficient operation by performing data transfers
between a single SFR or XREG address and flash/SRAM.
Each CC2540 contains a unique 48-bit IEEE address that can be used as the public device
address for a Bluetooth device. Designers are free to use this address, or provide their own, as
described in the Bluetooth specfication.
The interrupt controller services a total of 18 interrupt sources, divided into six interrupt
groups, each of which is associated with one of four interrupt priorities. I/O and sleep timer
interrupt requests are serviced even if the device is in a sleep mode (power modes 1 and 2) by
bringing the CC2540 back to the active mode.
The debug interface implements a proprietary two-wire serial interface that is used for
in-circuit debugging. Through this debug interface, it is possible to erase or program the entire
flash memory, control which oscillators are enabled, stop and start execution of the user
program, execute instructions on the 8051 core, set code breakpoints, and single-step through
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instructions in the code. Using these techniques, it is possible to perform in-circuit debugging
and external flash programming elegantly.
The I/O controller is responsible for all general-purpose I/O pins. The CPU can configure
whether peripheral modules control certain pins or whether they are under software control,
and if so, whether each pin is configured as an input or output and if a pullup or pulldown
resistor in the pad is connected. Each peripheral that connects to the I/O pins can choose
between two different I/O pin locations to ensure flexibility in various applications.
The sleep timer is an ultralow-power timer that can either use an external 32.768-kHz crystal
oscillator or an internal 32.753-kHz RC oscillator. The sleep timer runs continuously in all
operating modes except power mode
3. Typical applications of this timer are as a real-time counter or as a wake-up timer to get out
of power modes 1 or 2.
A built-in watchdog timer allows the CC2540 to reset itself if the firmware hangs. When
enabled by software, the watchdog timer must be cleared periodically; otherwise, it resets the
device when it times out.
Timer 1 is a 16-bit timer with timer/counter/PWM functionality. It has a programmable
prescaler, a 16-bit period value, and five individually programmable counter/capture channels,
each with a 16-bit compare value. Each of the counter/capture channels can be used as a
PWM output or to capture the timing of edges on input signals. It can also be configured in IR
generation mode, where it counts timer 3 periods and the output is ANDed with the output of
timer 3 to generate modulated consumer IR signals with minimal CPU interaction.
Timer 2 is a 40-bit timer used by the Bluetooth low energy stack. It has a 16-bit counter with a
configurable timer period and a 24-bit overflow counter that can be used to keep track of the
number of periods that have transpired. A 40-bit capture register is also used to record the
exact time at which a start-of-frame delimiter is received/transmitted or the exact time at which
transmission ends. There are two 16-bit timer-compare registers and two 24-bit
overflow-compare registers that can be used to give exact timing for start of RX or TX to the
radio or general interrupts.
Timer 3 and timer 4 are 8-bit timers with timer/counter/PWM functionality. They have a
programmable prescaler, an 8-bit period value, and one programmable counter channel with
an 8-bit compare value. Each of the counter channels can be used as PWM output.
USART 0 and USART 1 are each configurable as either an SPI master/slave or a UART. They
provide double buffering on both RX and TX and hardware flow control and are thus well
suited to high-throughput full-duplex applications. Each USART has its own high-precision
baud-rate generator, thus leaving the ordinary timers free for other uses. When configured as
SPI slaves, the USARTs sample the input signal using SCK directly instead of using some
oversampling scheme, and are thus well-suited for high data rates.
The AES encryption/decryption core allows the user to encrypt and decrypt data using the
AES algorithm with 128-bit keys. The AES core also supports ECB, CBC, CFB, OFB, CTR,
and CBC-MAC, as well as hardware support for CCM.
The ADC supports 7 to 12 bits of resolution with a corresponding range of bandwidths from
30-kHz to 4-kHz, respectively. DC and audio conversions with up to eight input channels (I/O
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Chongqing Jinou Science & Technology Development Co., Ltd
controller pins) are possible. The inputs can be selected as single-ended or differential. The
reference voltage can be internal, AVDD, or a single-ended or differential external signal. The
ADC also has a temperature-sensor input channel. The ADC can automate the process of
periodic sampling or conversion over a sequence of channels.
The operational amplifier is intended to provide front-end buffering and gain for the ADC.
Both inputs as well as the output are available on pins, so the feedback network is fully
customizable. A chopper-stabilized mode is available for applications that need good accuracy
with high gain.
The ultralow-power analog comparator enables applications to wake up from PM2 or
PM3 based on an analog signal. Both inputs are brought out to pins; the reference voltage
must be provided externally. The comparator output is connected to the I/O controller
interrupt detector and can be treated by the MCU as a regular I/O pin interrupt
8. Solder Profiles
Composition of the solder ball: Sn 95.5%, Ag 4.0%, Cu 0.5%
Typical Lead-Free Re-flow Solder Profile
Key features of the profile:

Initial Ramp = 1-2.5°C/sec to 175°C±25°C equilibrium

Equilibrium time = 60 to 180 seconds

Ramp to Maximum temperature (250°C) = 3°C/sec max.

Time above liquidus temperature (217°C):

Device absolute maximum reflow temperature: 260°C
45-90 seconds
Devices will withstand the specified profile. Lead-free devices will
withstand up to three reflows to a maximum temperature of 260°C.
Notes：They need to be baked prior to mounting。
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9. Physical Dimensions
1.525
60
1.27
50
0.89
35
14.48
570
24.13
950
2.44
96
1.91
75
mm
mil
error：±0.2mm
Recommend PCB Layout
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Chongqing Jinou Science & Technology Development Co., Ltd
0.81
32
0.51
20
0.76
30
mm
mil
error：±0.1mm
FCC ID statement
This equipment 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.
Any changes or modifications not expressly approved by the party responsible
for compliance could void the user's authority to operate this equipment
IC ID statement
This device complies with industry Canada's licence-exempt RSSs.
Operation is subject to the following two conditions:
(1) This device may not cause interference, and
(2) This device must accept any interference, including interference that may
cause undesired operation of the device.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux
appareils radio exempts de licence. L'exploitation est autorisée aux deux conditions
suivantes:
(1) l'appareil ne doit pas produire de brouillage, et
(2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi,
même si le
brouillage est susceptible d'en compromettre le fonctionnement.
Page 15 of 14
Chongqing Jinou Science & Technology Development Co., Ltd
RF exposure warning
This equipment must be installed and operated in accordance with provide
instructions and the antenna used for this transmitter must be installed to
provide a separation distance of at least 20 cm from all persons and must not
be co-located or operation in conjunction with any other antenna or transmitter.
End-users and installers must be provide with antenna installation instructions
and transmitter operating conditions for satisfying RF exposure compliance.
Information for the OEMs and Integrators
The following statement must be included with all versions of this document
supplied to an OEM or integrator, but should not be distributed to the end user.
This device is intended for OEM integrators only.
Please see the full grant of equipment document for other restrictions.
Information to be supplied to the end user by the OEM or Integrator
The following regulator and safety notices must be published in documentation
supplied to the end user of the product or system incorporating an adapter in
compliance with local regulation. Host system must be labeled as following:
“Contains transmitter module FCC ID: SI8JO-BLE02, IC ID: 12627A-JOBLE02”
Chongqing Jinou Science & Technology Development Co., Ltd
Address: 12-2-1-1, Huaxuan Branch Road 108#, Yuzhou Road, Jiulongpqo District, Chongqing,
400041, China,
Tel: 86-23-68903066/68842136
Fax: 86-23-68644164
Web: www.oemblue.com
www.jinoux.com
E-mail: info@oemblue.com Lauren@oemblue.com jinou_lisa@foxmail.com
Page 16 of 14

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