25
1. General
List of Contents
1.1 Overview1.2 Features1.4 Pin Con�guration1.5 Device Terminal Functions1.6 Package Dimensions & Land Pattern
2. Characteristics2.1 Electrical Characteristics2.2 RF Characteristics
3. Terminal Description3.1 UART Interface
3.1.1 UART Setting
3.2 SPI Interface3.3 USB Interface3.4 I2C Interface3.5 LED Drivers
4. Battery Charger4.1. Battery Charger Hardware Operating Modes
5.1.1 Disable Mode5.1.2 Trickle Charge Mode5.1.3 Fast Charge Mode5.1.4 Standby Mode
4.2 External Mode
5. Reset, RST#6. Example - Battery Application Schematic7. Example - 3V3 Supply Allication Schematic
334568
111115
161616
17171718
191920202020
21
222324
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DATASHEETBoT-DAT100NBluetooth of Things
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본 사 경기도 광명시 하안로60, 광명테크노파크 E동 510호
기술지원 (주)칩센 고객지원팀 [email protected]
T.1599-6005
매 장 서울시 구로구 경인로53길 15, 구로중앙유통단지 C동 지하17호T.1599-6885
F.02-2083-2288
F.02-6679-4345
3
1. General
1.1 Overview
This specification covers Bluetooth module which complies with Bluetooth specification version 4.1 and integrates RF & Baseband controller in small package. This Module has deployed CSR’s CSRB5342 chipset.
All detailed specification including pin outs and electrical specification may be changed without notice.
XTAL26Mhz
BPF
PIO/AIO
UART
SPI/PCM
USB
I/O In
terfa
ce
BatteryCharger
2.4Ghz Radio +Balun
RAM
ROM
Base Band
DSP
MCU
2.8V/3.2VLDO Regurator
CH
ARG
ER
VB
AT
External Flash16Mb
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1.2 Features
■ Bluetooth® v4.1 specification compliant
■ Radio includes integrated balun and typical RF performance of 7 dBm transmit power and -88 dBm receive sensitivity (π/4-DQPSK modulation)
■ 80 MHz RISC MCU
■ Programmable DSP with 4K x 32-bit program
■ Serial interfaces: UART, USB 2.0 full-speed, I²C and SPI
■ Up to 16 PIOs, i.e.9 general purpose PIOs and unused digital interfaces are available as PIOs
■ Integrated battery charger
■ Integrated to 16Mbit external Flash memory
■ 4 on dedicated LED pads
■ Power-on-reset detects low supply voltage
■ Competitive Size
A type : 13mm x 13mm x 1.6mm : 60Pin
B type : 13mm x 13mm x 2.35mm : 60Pin (with SHIELD CAN. )
■ Operating temperature range (MAX -20℃ ~ 70℃)
1.3 Application
■ Mobile Printer
■ Wireless gaming Controllers
■ Wireless HCI
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1.4 Pin Configuration
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16 6
059
58
57
56
55
54
53
52
51
50
49
48
47
46
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
NC
AIO
[24]
AIO
[23]
VDD_AIO
NC
VREG_EN
VCHG
CHG_EXT
VBAT_SENSE
VBAT
NC
NC
VDD_PADS
NC
GN
D]8
1[OI
P
]2
1[OI
P
OIP
[]
92
/A
DS OI
P[
]0
3/
PW
[OI
P]
82 L
CS/
]5
1[OI
P
OIP
[]
71
]3
1[OI
P
]4
1[OI
P
[D
EL]
3 [D
EL]
2 [D
EL]
1 [D
EL]
0
1V8
]6
1[OI
P
GND
USB_DN
USB_DP
GND
PIO[2]UART_RX
PIO[3]UART_TX
PIO[4]UART_RTS
PIO[5]UART_CTS
SPI_CLK
SPI_CS#
SPI_MOSI
SPI_MISO
SPI_SEL
RST
GND
FR
DN
G
[OI
P5
2]]
62[
OIP
[OI
A]
2 [OI
A]
3[OI
A]
6[OI
A]
5[OI
A]
8[OI
A]
01[
OIA
21
]
[OI
A9
1]
[OI
A]
52
NC
NC
Pin Configuration (TOP VIEW)
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1.5 Device Terminal Functions
Pin Name Pin No. Pin type Description Note
Pin Name Pin No. Pin type Description Note
PIO [12] 35
PIO [13] 38
PIO [14] 39
PIO [15] 36
PIO [16] 41
PIO [17] 37
PIO [18] 34
PIO [25] 3
PIO [26] 4
AIO [2] 6
AIO [3] 5
AIO [6] 7
AIO [5] 8
AIO [8] 9
AIO [10] 10
AIO [12] 11
AIO [19] 12
AIO [23] 15
AIO [24] 14
AIO [25] 13AIO [25]
AIO [5]
AIO [8]
AIO [10]
AIO [12]
Analogue Programmable
input/output line
Bidirectional with weakpull-down
Open-drain, bidirectionalHi-Z
Bidirectional Hi-Z
PIO [25]
PIO [26]
PIO PIO [16]
PIO [17]
PIO [18]
PIO [14]
PIO [15]
AIO [2]
AIO [3]
AIO [6]
AIO [23]
AIO [19]
AIO [24]
PIO [13]
PIO [12]
1 RF Bluetooth 50Ω transmitter output /receiver input
Programmable input/output l ine
RF RF ANT
Function
Function
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Pin Name Pin No. Pin type Description Note
USB_P 48 USB data plus with selectable internal1.5kΩ pull-up resistor
USB_N 47 USB data minus
PIO[29] SDA 31 Programmable input/output l ine 29Alternative function : I2C_SDA
PIO[28] SCL 33 Programmable input/output l ine 28Alternative function : I2C_SCL
PIO[30] WP 32 Programmable input/output l ine 30Alternative function : I2C WP
PCM_OUT SPI_MISO 57Output with weak pull-down SPI data output
PCM_IN SPI_MOSI 56 SPI data input
PCM_SYNC SPI_CS# 55 Chip select for SPI, active low
PCM_CLK SPI_CLK 54 SPI clock
PCM_SEL SPI_SEL 58 Input with strong pull-down SPI select
PIO[2] UART_RX 50 Programmable input/output l ine2Alternative function : UART_RX
PIO[3] UART_TX 51 Programmable input/output l ine 3Alternative function : UART_TX
PIO[4] UART_RTS 52 Programmable input/output l ine 4Alternative function : UART_RTS
PIO[5] UART_CTS 53 Programmable input/output l ine 5Altenrnative function : UART_CTS
LED [0] 45 LED Driver
LED [1] 44 LED Driver
LED [2] 43 LED Driver
LED [3] 42 LED Driver
VDD_AIO 16 Output of ADC regulator
VREG_EN 18 - Regulator enable input
VCHG 20 - Battery charger input
CHG_EXT 22 External battery charger control
VBAT_SENSE 24 - Battery charger sense input
VBAT 26 - Battery positive terminal
1V8 28 - 1V8 LDO regulator output
VDD_PADS 30 Positive supply for PIOs
RST# 59 Input with strong pull-up Reset if low. Input debounced so must below for >5ms to cause a reset.
GND 2,40,46,49,60, EPAD Ground
NC 17,19,21,23,25,27,29 Not connection
UART_RTS
Bidrectional weak pull-up
Bidirectional withweak pull-down
Open drain
Bidirectional
LED [2]
LED [3]
SPI
LED
Input with weak pull-down
LED [1]
LED [0]
USBUSB_P
USB_N
UART
UART_RTS
UART_RX
UART_TX
SPI_MISO
SPI_MOSI
SPI_CS#
SPI_CLK
SPI_SEL
SDA
SCL
WP
I2C
Function
Other Pin
NC
1V8
VBAT
RST#
GND
VDD_PADS
VREGENABLE
CHG_EXT
VDD_AIO
VCHG
VBAT_SENSE
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8
1.6 Package Dimensions & Land Pattern
● unit = mm
● General Tolerances = ±0.2mm
13.00
13.0
0
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16 6
059
58
57
56
55
54
53
52
51
50
49
48
47
46
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
7.0
0
7.00
0.3
00.3
5
3.0
0
3.00
1.65
1.6
50.1
5
12.7
0
0.15
1.60
13.0
0
BoT-DAT100N A type Package Dimensions
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● unit = mm
● General Tolerances = ±0.2mm
13.00
13.0
0
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16 6
059
58
57
56
55
54
53
52
51
50
49
48
47
46
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
7.0
0
7.00
0.3
00.3
5
3.0
0
3.00
1.65
1.6
50.1
5
12.7
0
0.15
2.35
13.0
0
0.80
12.4
0
1.60
0.60
BoT-DAT100N B type Pacage Dimensions
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● unit = mm
13.00
13.0
0
31 32 33 34 35 36 37 38 39 40 41 42 43 44 45
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
7.0
0
7.00
0.4
00.2
5
3.0
0
3.00
1.75
1.7
5
1.25
0.95
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
< Land Pattern >
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2. Characteristics
2.1 Electrical Characteristics
■ Absolute Maximum Ratings
Rating Min Max Unit Storage Temperature range -40 85 °C
Charger VCHG -0.4 6.50 V
LEDs LED[3:0] -0.4 4.40 V
Battery VBAT -0.4 4.40 V
VDD_IO -0.4 3.60 V
Other terminal voltages VSS-0.4 VDD+0.4 V
■ Recommended Operating Conditions
Operating Condition Min TYP Max Unit Operating Temperature range -20 20 70 °C
Charger VCHG 3.00 5.00 6.50 V
Battery VBAT 2.70 3.70 4.30 V
LEDs LED[3:0] 1.10 3.20 4.30 V
VDD_IO 1.70 1.8 3.60 V
■ 1.8V LDO OUT Normal Operating Min TYP Max Unit Output voltage 1.7 1.8 1.9 V
Load current - - 100 mA
■ ADC LDO OUT
Internal LDO Min TYP Max Unit Output voltage 2.50 2.8/3.2 3.232 V
Load current - - 100 mA
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■ Battery Charger Battery Charger Min TYP Max Unit Input voltage, VCHG 4.75 5 6.5 V
Trickle Charge Min TYP Max Unit Charge current Itrickle, as percentage of fast charge current
8 10 12 %
Vfast rising threshold - 2.9/3.0/3.1/3.2 - V
Vfast rising threshold trim step size - 0.1 - V
Vfast falling threshold - 2.8 - V
Itrickle in internal mode 1 - 20 mA
Itrickle in internal mode step size 1 mA
Fast charge Min TYP Max Unit
Charge current during constant current mode, Ifast
Maximum charge setting (VCHG>VBAT+550mV)
194 200 206 mA
Minimum charge setting (VCHG>VBAT+550mV)
- 10 - mA
Reduced headroom charge current, as a percentage of Ifast
(VCHG=VBAT + 550mV) 50 - 100 %
Charge current step size - 10 - mA
V�oat threshold, CSR calibrated to 4.2V 4.16 4.20 4.24 V
V�oat threshold adjustment 3.58 4.20 4.42 V
V�oat threshold adjustment step size - 56 - mV
Vhyst: Voltage VBAT needs to fall from V�oat before charging restarts with 4.20 V V�oat (selectable), 1%
- 3.77/3.86/3.94/4.08 - V
Charge termination current Iterm, as percentage of Ifast 7 10 20 %
Error Min TYP Max Unit Headroom (VCHG - VBAT) falling threshold - 50 - mV
High Current Charging (External Mode) Min TYP Max Unit Fast Charge current, Ifast 200 - 500 mA
Control current into CHG_EXT 0 - 20 mA
Voltage on CHG_EXT 0 - 6.50 V
External pass device Hfe 25 50 270 - Sense voltage, between VBAT_SENSE and VBAT at maximum current
195 200 205 mV
Itrickle in external mode 12.5 50 mA
Itrickle in external mode step size - 2.5 - mA
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■ 12-bit ADC 12-bit ADC Min TYP Max Unit
Resolution(VDD_ADC = 2.8V/3.2V) - - 12 Bits
Input voltage range 0 - VDD_ADC KHz
Accuracy (VDD_ADC=2.8V/3.2V Only) INL +/-1.5 LSB
(Guaranteed monotonic) DNL +/-1.5 LSB
O�eset +/-1.5 LSB
Gain error +/-1.5 LSB
Conversion tim 14 14 μs
External source impedance 50 kΩ
Sample and hold capcitance 12 pF
■ Digital Terminals Input Voltage Levels Min TYP Max Unit VIL input logic level low -0.4 - 0.25xVDD V
VIH input logic level high 0.7 x VDD - VDD+0.4 V
Tr/Tf - - 25 ns
Output Voltage Levels Min TYP Max Unit VOL output logic level low, lOL = 4.0mA - - 0.4 V
VOH output logic level high, lOH = -4.0mA 0.75 x VDD
- - V
Tr/Tf - - 5 ns
Input and Tristate Currents Min TYP Max Unit Strong pull-up -150 -40 -10 μA
Strong pull-down 10 40 150 μA
Weak pull-up -5 -1.0 -0.33 μA
Weak pull-down 0.33 1 5 μA
CI Input Capacitance 1 - 5 pF
High impedance state (no pulls) -0.1 0 0.1 μA
■ Open Drain PIO [25:26] Input Voltage Levels Min TYP Max Unit VIL input logic level low -0.4 - 0.4 V
VIH input logic level high 1.0 - 4.3 V
Tr/Tf - - 25 ns
Current Sink Capability Min TYP Max Unit Current IPAD, driving low - - 0.4 V
Current IPAD, high impedance 0.75x VDD - - V
Optional pull-down - - 5 ns
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■ AIO Terminals(when used as digital I/O) Input Voltage Levels Min TYP Max Unit
VIL input logic level low -0.4 - 0.25x
VDD_AIO V
VIH input logic level high 0.7 x
VDD_AIO -
VDD_AIO+ 0.4
V
Tr/Tf - - 25 ns
Output Voltage Levels Min TYP Max Unit VOL output logic level low, lOL = 8.0mA - - 0.4 V
VOH output logic level high, lOH = -4.0mA 0.75 x
VDD_AIO - - V
Tr/Tf - - 5 ns
Input and Tristate Currents Min TYP Max Unit Weak pull-down 80 100 120 kΩ
CI Input Capacitance 1 - 5.0 pF
High impedance state -0.4 0 0.4 μA
■ LED Driver Pads LED Driver Pads Min TYP Max Unit
Current, IPAD High impedance state - - 5 µA
Current sink state - - 50 mA
LED pad resistance Note : VDD_PADS1=3.2V
VPAD< 0.5V 2.4 2.8 4.4 Ω
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2.2 RF Characteristics
T.B.D
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3. Terminal Description
3.1 UART Interface
This is a standard UART interface for communicating with other serial devices. BoT-DAT100N UART interface provides a simple mechanism for communicating with other serial devices using the RS-232 protocol.
When BoT-DAT100N is connected to another digital device, UART_RX and UART_TX transfer data between the 2 devices. The remaining 2 signals, UART_CTS and UART_RTS, implement optional RS232 hardware flow control where both are active low indicators
If UART_CTS and UART_RTS are not required for hardware flow control, they are reconfigurable as
PIO. UART configuration parameters, such as baud rate and packet format, are set using BoT-DAT100N firmware.
3.1.1 UART Setting
Parameter Possible values
Baud rate Minimum
1200 baud(≤2% Error)
9600 baud(≤1% Error)
Maximum 4M baud(≤ 1% Error)
Flow control RTS/CTS or None
Parity None, Odd or Even
Number of stop bits 1 or 2
Bits per byte 8
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3.2 SPI Interface
BoT-DAT100N provides a debug SPI interface for programming, configuring and debugging the BoT-DAT100N. Access to this interface is required in produ on. Ensure the 4 SPI signals externally.
3.3 USB Interface
BoT-DAT100N has a full-speed (12 Mbps) USB interface for commun ng with other comp ble digital devices. The USB interface on BoT-DAT100N acts as a USB peripheral, responding to requests from a master host controller.
3.4 I2C Interface
BoT-DAT100N supports a firmware controlled I²C interface to communicate with external EEPROM to store the PS Keys. The I²C ming is compliant with the Philips I²C Specific on (100 kHz and 400 kHz). If an SPI flash device is used it is not necessary to use an EEPROM as PS Keys can be stored in the SPI flash. EEPROM can only be used for PS Key storage and not VM applica ons.
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3.5 LED Drivers
BoT-DAT100N includes a 4-pad synchronised PWM LED driver for driving RGB LEDs for producing a wide range of colors. All LEDs are controlled by firmware.
The terminals are open-drain outputs, so the LED must be connected from a positive supply rail to the pad in series with a current-limiting resistor.
It is possible to derive below Equation to calculate ILED. If a known value of current is required through
the LED to give a specific luminous intensity, then the value of RLED is calculated.
For the LED pads to act as resistance, the external series resistor, RLED, needs to be such that the voltage drop across it, VR, keeps VPAD below 0.5V. Below equation also applies.
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4. Battery Charger
4.1. Battery Charger Hardware Operating Modes The ba ery charger hardware is controlled by the VM, see Sec on The ba ery charger has 5 modes: ▪ Disabled ▪ Trickle charge ▪ Fast charge ▪ Standby: fully charged or float charge ▪ Error: charging input voltage, VCHG, is too low
The ba ery charger opera ng mode is determined by the ba ery voltage and current, see the below Table and Figure.
The internal charger circuit can provide up to 200mA of charge current, for currents higher than this the BoT-DAT100N can control an external pass transistor.
(a) Iterm is approximately 10% of Ifast for a given Ifast se ng Below figure shows the mode-to-mode transi on voltages. These voltages are fixed and calibrated
by CSR. The transi on between modes can occur at any me.
Mode Battery Charger Enabled VBAT_SENSE
Disabled No X
Trickle charge Yes >0 and <V fast
Fast charge Yes >Vfast and <V oat
Standby Yes Iterm(a) and >(V t- Vhyst)
Error Yes >(VCHG - 50mV)
Battery Charger Operating Modes Determined by Battery Voltage and Current
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Note:
The battery voltage remains constant in Fast Charge Constant Voltage Mode, the curved line on Figure is for clarity only.
5.1.1 Disable Mode
In the disabled mode the battery charger is fully disabled and draws no active current on any of its terminals.
5.1.2 Trickle Charge Mode
In the trickle charge mode, when the voltage on VBAT_SENSE is lower than the Vfast threshold, a current of approximately 10% of the fast charge current, Ifast, is sourced from the VBAT pin.
The Vfast threshold detection has hysteresis to prevent the charger from oscillating between modes.
5.1.3 Fast Charge Mode
When the voltage on VBAT_SENSE is greater than Vfast, the current sourced from the VBAT pin increases to Ifast. Ifast is between 10 mA and 200 mA set by PS Key or a VM trap. In addition, Ifast is calibrated in production test to correct for process variation in the charger circuit. The current is held constant at Ifast until the voltage at VBAT_SENSE reaches Vfloat, then the charger reduces the current sourced to maintain a constant voltage on the VBAT_SENSE pin. When the current sourced is below the termination current, Iterm, the charging stops and the charger enters standby mode. Iterm is typically 10% of the fast charge current. If External mode is selected, the charger controls the external transistor to provide the charge current
5.1.4 Standby Mode
When the battery is fully charged, the charger enters standby mode, and battery charging stops. The battery voltage on the VBAT_SENSE pin is monitored, and when it drops below a threshold set at Vhyst below the final charging voltage, Vfloat, the charger re-enters fast charge mode.
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4.2 External Mode
The external mode is for charging higher capacity batteries using an external pass device. The current is controlled by sinking a varying current into the CHG_EXT pin, and the current is determined by measuring the voltage drop across a resistor, Rsense, connected in series with the external pass device. The voltage drop is determined by looking at the difference between the VBAT_SENSE and VBAT pins. The voltage drop across Rsense is typically 200mV. The value of the external series resistor determines the charger current. This current can be trimmed with a PS Key.
Below Figure R1 (220mΩ) and C1 (4.7µF) form an RC snubber that is required to maintain stability across all battery ESRs. The battery ESR must be <1.0Ω.
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5. Reset, RST#
BoT-DAT100N is reset from several sources:▪ RST# pin▪ Power-on reset▪ USB charger attach reset▪ UART break character▪ Software configured watchdog timer
The RST# pin is an active low reset and is internally filtered using the internal low frequency clock oscillator. CSR recommends applying RST# for a period >5ms.
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6. Example - Battery Application Schematic
BoT-DAT100N
BoT-DAT100N
55
44
33
22
11
DCBA
BATTERY
USB INTERFACE
DEBUG INTERFACE
I/O POWER
-Fast Charge option (500mA charging)
;R1=400m ohm, Q1, R3, C7 insert
-If not using fast charging
;R1 is 0 ohm, Q1, R3, C7 open
EXTERNAL CHARGER
LED
PIO
AIO
APPLE CP
BYPASS CAPACITOR
VREG ENALBLE
Operating Voltage Range :
1V7 ~ 3.6V
High Level : Debug Enable
Low Level : Debug Disable
Debug Select
RESET
UAR
T_CTS
RESET
UAR
T_RX
UAR
T_TX
UAR
T_RTS
USB_P
USB_P
USB_N
SPI_MO
SI
SPI_MISO
SPI_CS#
SPI_CLK
SPI_EN
LED[1]
LED[0]
LED[2]
SCL
CH
G_EXT
SDA
PIO[16]
PIO[14]
PIO[13]
PIO[15]
PIO[17]
PIO[12]
PIO[18]
LED[0]
VREG
_ENABLE
VBAT_SENSE
AIO[3]
AIO[6]
AIO[2]
AIO[5]
AIO[8]
AIO[10]
LED[3]
LED[1]
LED[2]
LED[3]
PIO[17]
PIO[13]
PIO[21]
PIO[15]
PIO[14]
PIO[15]
USB_P
USB_N
SPI_CLK
SPI_MO
SI
SPI_MISO
SPI_CS#
UAR
T_TXU
ART_R
X
UAR
T_RTS
UAR
T_CTS
SPI_EN
1V8
VBAT_SENSE
VBAT
CH
G_EXT
AIO[3]
AIO[2]
AIO[5]
AIO[6]
AIO[8]
AIO[10]
VREG
_ENABLE
SPI_EN
RST
VDD
_AIO
SCL
SDA
PIO[18]
EXTERN
AL_VCC
VCH
GVBAT
VBAT
VCH
G
VDD
_PADS
VCH
GVBAT
VDD
_PADS
VDD
_PADS
VCH
G
VDD
_AIOVD
D_AIO
VDD
_AIOVD
D_AIO
VDD
_AIOVD
D_AIO
VBATVD
D_PAD
SVC
HG
VBAT
VDD
_PADS
VDD
_PADS
VDD
_PADS
222
TiTiTitttllleee
SizSizSizeee
DDDooocum
ent cum
ent cum
ent NNNum
berum
berum
berRRR
eeevvv
DDDaaattteee:::
SSSheetheetheet
ooofff
DEV_H
J_160801D
EV_HJ_160801
DEV_H
J_1608011.01.01.0
BoT-DAT100N
BATTERY
A3A3A3
222M
onday, September 05, 2016
Monday, Septem
ber 05, 2016M
onday, September 05, 2016
C8
1u
J11
HEAD
ER_3X1
123
R11
220mR
C10
NC
SW13
SW TAC
T-SPST
R15
360
R10
400mR
L20
SW12
SW TAC
T-SPST J12
HEAD
ER_12X2
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
TP3
C17
4.7u
R122k2
SW11
SW TAC
T-SPST
C16
2.2u
J15
SENSO
R 123
J16
SENSO
R 123
J13
SENSO
R 123
C9
NC
C12
100n
R16
360
C14
100n
R17
360
D7
LED
R18
360
J17
SENSO
R 123
D8
LED
SW10
SW TAC
T-SPST
C15
2.2u
Q1
BCX51
TP4
C11
4.7u
D9
LED
D5
BAT54C/SO
T
SW17
SW TAC
T-SPST
J10
BATTERY 1234
R132k2
ANT2
BA8SB24A1
J18
SENSO
R 123
J9USB_5P
12345
6789
J14
SENSO
R 123
SW14
SW TAC
T-SPST
U4CP
GN
D1
SDA
2
NC
_13
NC
_24
NC
_35
SCL
6R
ST7
VCC
8
T-PAD9
SW18
SW TAC
T-SPST
R9
10K
SW16
SW TAC
T-SPST
SW15
SW TAC
T-SPST
BoT-DAT100N
AIO[23]15
AIO[24]14
AIO[25]13
AIO[19]12
AIO[12]11
AIO[10]10
AIO[8]09
AIO[6]08
AIO[5]07
AIO[2]06
AIO[3]05
PIO[26]04
PIO[25]03
GND02
RF01
VDD
_AIO16
NC
17
VREG
_EN18
NC
19
VCH
G20
NC
21
CH
G_EXT
22
NC
23
VBAT_SENSE
24
NC
25
VBAT26
NC
27
1V828
NC
29
VDD
_PADS
30
PIO[29]/SDA31
PIO[30]/WP32
PIO[28]/SCL33
PIO[18]34
PIO[12]35
PIO[15]36
PIO[17]37
PIO[13]38
PIO[14]39
GND40
PIO[16]41
LED[3]42
LED[2]43
LED[1]44
LED[0]45
GN
D60
RST
59
SPI_SEL58
SPI_MISO
57
SPI_MO
SI56
SPI_CS#
55
SPI_CLK
54
PIO[5]_U
ART_C
TS53
PIO[4]_U
ART_R
TS52
PIO[3]/U
ART_TX
51
PIO[2]/U
ART_R
X50
GN
D49
USB_P
48
USB_N
47
GN
D46
EPAD61
D6
LED
R1410K
C13
100n
7. Example - 3V3 Supply Application Schema tic
D
55
44
33
22
11
DD
CC
BB
AA
Operating Voltage Range :
1V7 ~ 3.6V
High Level : Debug Enable
Low Level : Debug Disable
Debug Select
APPLE CP
BYPASS CAPACITOR
DEBUG INTERFACE
I/O POWER
LED
PIO
AIO
VREG ENALBLE
Operating Voltage Range :
1V7 ~ 3.6V
MAIN POWER
RESET
SPI_EN
PIO[17]
PIO[13]
PIO[21]
PIO[15]
PIO[14]
PIO[15]
SPI_CLK
SPI_MO
SI
SPI_MISO
SPI_CS#
UAR
T_TXU
ART_R
X
UAR
T_RTS
UAR
T_CTS
SPI_EN
UAR
T_CTS
RESET
UAR
T_RX
UAR
T_TX
UAR
T_RTS
USB_P
USB_P
USB_N
SPI_MO
SI
SPI_MISO
SPI_CS#
SPI_CLK
SPI_EN
LED[1]
LED[0]
LED[2]
SCL
SDA
PIO[16]
PIO[14]
PIO[13]
PIO[15]
PIO[17]
PIO[21]
PIO[18]
LED[0]
VREG
_ENABLE
AIO[3]
AIO[6]
AIO[2]
AIO[5]
AIO[8]
AIO[10]
LED[3]
AIO[3]
AIO[2]
AIO[5]
AIO[6]
AIO[8]
VREG
_ENABLE
AIO[10]
LED[1]
LED[2]
LED[3]
RST
VDD
_AIO
1V8
SCL
SDA
PIO[18]
EXTERN
AL_VCC
EXTERN
AL_3V3
3V3
VBAT
VDD
_PADS
3V3VD
D_PAD
S
VDD
_PADS
VDD
_PADS
VDD
_AIOVD
D_AIO
VDD
_AIOVD
D_AIO
3V3
VDD
_AIOVD
D_AIO
VDD
_PADS
3V3
VDD
_PADS
VDD
_PADS
111
TiTiTitttllleee
SizSizSizeee
DDDooocum
ent cum
ent cum
ent NNNum
berum
berum
berRRR
eeevvv
DDDaaattteee:::
SSSheetheetheet
ooofff
DEV_H
J_160801D
EV_HJ_160801
DEV_H
J_1608011.01.01.0
BoT-DAT100N
3V3 SUPPLY
<OrgAddr1>
<OrgAddr1>
<OrgAddr1>
A3A3A3
222M
onday, September 05, 2016
Monday, Septem
ber 05, 2016M
onday, September 05, 2016
SW7
SW TAC
T-SPST J2
HEAD
ER_12X2
12
34
56
78
910
1112
1314
1516
1718
1920
2122
2324
R7
360
TP1
SW6
SW TAC
T-SPST
ANT1
BA8SB24A1
BoT-DAT100N
AIO[23]15
AIO[24]14
AIO[25]13
AIO[19]12
AIO[12]11
AIO[10]10
AIO[8]09
AIO[6]08
AIO[5]07
AIO[2]06
AIO[3]05
PIO[26]04
PIO[25]03
GND02
RF01
VDD
_AIO16
NC
17
VREG
_EN18
NC
19
VCH
G20
NC
21
CH
G_EXT
22
NC
23
VBAT_SENSE
24
NC
25
VBAT26
NC
27
1V828
NC
29
VDD
_PADS
30
PIO[29]/SDA31
PIO[30]/WP32
PIO[28]/SCL33
PIO[18]34
PIO[12]35
PIO[15]36
PIO[17]37
PIO[13]38
PIO[14]39
GND40
PIO[16]41
LED[3]42
LED[2]43
LED[1]44
LED[0]45
GN
D60
RST
59
SPI_SEL58
SPI_MISO
57
SPI_MO
SI56
SPI_CS#
55
SPI_CLK
54
PIO[5]_U
ART_C
TS53
PIO[4]_U
ART_R
TS52
PIO[3]/U
ART_TX
51
PIO[2]/U
ART_R
X50
GN
D49
USB_P
48
USB_N
47
GN
D46
EPAD61
D3
LED
R5
360
R6
360
D1
LED
SW8
SW TAC
T-SPST
J3SENSO
R 123 R1
10K
C3
100n
D2
LED
C7
2.2u
J7SENSO
R 123
SW3
SW TAC
T-SPST
C2
NC
R22k2
L10
C4
100n
R410KR32k2
SW5
SW TAC
T-SPST
SW2
SW TAC
T-SPST
TP2
SW4
SW TAC
T-SPST
C1
NC
J8SENSO
R 123
C5
2.2uD
4LED
U2CP
GN
D1
SDA
2
NC
_13
NC
_24
NC
_35
SCL
6R
ST7
VCC
8
T-PAD9
J5SENSO
R 123
J1
HEAD
ER_3X1
123
SW9
SW TAC
T-SPST
SW1
SW TAC
T-SPST
J4SENSO
R 123
R8
360
C6
100n
J6SENSO
R 123
25
WARNING : For BoT-DAT100N
If you have re�ow process multiple times in your product, you must be proceed this
module in the �nal re�ow process. If not the Shield can will drop out.
DATASHEETBoT-DAT100NBluetooth of Things
www.chipsen.com
![1. Generaldisk.chipsen.com/chipsenmall/download/BT/CLASSIC/BoT-DAT...PIO[8:6] can be used to form a master I2C interface. The interface is formed using software to drive these lines.](https://static.documents.pub/doc/80x56/606f280ed34cf67a296b3c7a/1-pio86-can-be-used-to-form-a-master-i2c-interface-the-interface-is-formed.jpg)
