Microchip BM78SPPS5NC2-0002AA Bluetoothâ® 4.2 dual-mode module Datasheet

BM78
Bluetooth® 4.2 Dual-Mode Module
Features
• Bluetooth Classic (BR/EDR) and Low Energy (LE)
• Certified to FCC, IC, MIC, KCC, and NCC radio
regulations
• European R&TTE Directive Assessed Radio module
• Bluetooth SIG 4.2 qualified
• Transparent UART mode for seamless serial data
over UART interface
• Easy to configure with User Interface (UI) tool, a
Windows® configuration utility or directly by
MCUs
• Firmware can be upgraded in the field over UART
(Flash version)
• Integral chip antenna (BM78SPPS5MC2/NC2) or
external antenna (BM78SPP05MC2/NC2)
• Integrated crystal, internal voltage regulator, and
matching circuitry
• Configurable I/O pins for control and status
• Supports Apple® iPod Accessory Protocol (iAP2),
(only BM78SPPx5MC2)
• Supports Bluetooth 4.2 LE secure connections
• Bluetooth 4.2 LE data packet length extension
• Small and compact surface mount module
• Castellated SMT pads for easy and reliable PCB
mounting
• Ideal for portable battery operated devices
• One LED driver with 16 steps brightness control
RF/Analog
• Frequency: 2.402 GHz to 2.480 GHz
• Receive Sensitivity: -90 dBm (BR/EDR), -92 dBm
(LE)
• Class 2 output power (+1.5 dBm typical)
MAC/Baseband/Higher Layer
• Secure AES128 encryption
• Bluetooth 3.0: GAP, SPP, SDP, RFCOMM, and
L2CAP
• Bluetooth 4.2: GAP, GATT, ATT, SMP, and L2CAP
Operating Conditions
• Operating voltage range: 3.3V to 4.2V
• Operating temperature: -20ºC to +70ºC
Applications
•
•
•
•
•
•
Internet of Things (IoT)
Secure Payment
Home and Security
Health and Fitness
Industrial and Data Logger
LED Lighting (16 configurations)
Data Throughput
Data Throughput at 1 Mbps UART baud rate:
• BR/EDR: up to 32 Kbps
• LE: up to 7 Kbps
Data Throughput at 115200 bps UART baud rate
• BR/EDR: upto 10 Kbps
• LE: up to 6 Kbps
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BM78
General Description
The BM78 module is a fully-certified, Bluetooth version
4.2 module for customers to easily add dual-mode
Bluetooth wireless capability to their products. The
BM78 is built around Microchip's IS1678 Bluetooth
dual-mode module, and it is available in ROM-based
(BM78SPPx5NC2) and Flash-based (BM78SPPx5MC2) versions. Refer to Section 9.0 “Ordering
Information” for additional information on the BM78
SKUs.
The BM78 bridges the customer products to smart
phones or tablets for convenient data transfer, control,
and access to cloud applications delivering local connectivity for IoT. The BM78 supports GAP, SDP, SPP,
and GATT profiles. Data transfer is achieved through
the Bluetooth link by sending or receiving data through
transparent UART mode, making it easy to integrate
with any microprocessor or Microcontroller (MCU) with
a UART interface. It also enables a easy configuration
by using a UI tool, a Windows configuration utility, or
directly through UART by MCUs.
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BM78
Table of Contents
1.0 System Overview ............................................................................................................................................................................ 5
2.0 Application Information ................................................................................................................................................................. 11
3.0 Operating Pattern .......................................................................................................................................................................... 23
4.0 Electrical Characteristics ............................................................................................................................................................... 31
5.0 Radio Characteristics .................................................................................................................................................................... 35
6.0 Physical Dimensions ..................................................................................................................................................................... 37
7.0 Reflow profile ................................................................................................................................................................................ 43
8.0 Module Placement ........................................................................................................................................................................ 45
9.0 Ordering Information ..................................................................................................................................................................... 49
Appendix A: Certification Notices ........................................................................................................................................................ 51
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BM78
NOTES:
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BM78
1.0
SYSTEM OVERVIEW
The BM78 module is a fully certified, embedded 2.4 GHz
Bluetooth version 4.2 (BR/EDR/LE) wireless module. It
includes an on board Bluetooth stack, a power management subsystem, a 2.4 GHz transceiver, and an RF
power amplifier. Customers can embed Bluetooth functionality into any applications using the BM78.
The BM78 enables rapid product development and
faster time to market, and it is designed to provide integrators with the following features:
•
•
•
•
•
Simple integration and programming
Reduced development time
Superior wireless module with low-cost system
Interoperability with Bluetooth host
Wide range of applications
FIGURE 1-1:
The BM78 has four Stock Keeping Units (SKUs). For
additional information on SKUs, refer to Section 9.0
“Ordering Information”. The BM78SPPS5MC2/NC2
is a complete and fully regulatory certified module with
an integral ceramic chip antenna and RF shield. The
BM78SPP05MC2/NC2 is a low-cost alternative with
RF out PAD (for external antenna) and no RF shield.
The integrator is responsible for the antenna, antenna
matching, and regulatory certifications.
The BM78 is a small, compact, and surface mounted
module with castellated pads for easy and reliable host
PCB mounting. It is compatible with standard
pick-and-place equipment and can independently maintain a low-power wireless connection. Low power usage
and flexible power management maximize the lifetime of
the BM78 in battery-operated devices. A wide operating
temperature range enables its applications in indoor and
outdoor environments. Figure 1-1 illustrates the internal
block diagram of the BM78.
INTERNAL BLOCK DIAGRAM OF BM78
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BM78
Table
1-1
provides
various
BM78SPPx5MC2/NC2 module.
TABLE 1-1:
pins
of
the
PIN DESCRIPTION
Description
S5 Pin
05 Pin
Symbol
Type
1
—
GND
Power
Ground reference
2
—
GND
Power
Ground reference
3
1
GND
Power
Ground reference
4
2
BAT_IN
Power
Battery Input (3.3V to 4.2V)
Main positive supply input
Connect to 10 uF (X5R/X7R) capacitor
5
3
SW_BTN
DI
6
4
LDO33_O
Power
Internal 3.3V LDO output, can source no more than 50
mA
7
5
VDD_IO
Power
I/O positive supply input. Internal use only, do not connect to other devices
8
6
LDO18_O
Power
Internal 1.8V LDO output. Internal use only, do not connect to other devices
9
7
WAKEUP
DI
10
8
PMULDO_O
Power
Software Button H: Power On
L: Power Off
Wakeup from Sleep mode (active- low)
(internal pull-up)
Power management unit output. Internal use only, do
not connect to other devices
11
9
P0_4
DO
Status Indication pin along with P1_5, refer to Table 2-3
12
10
P1_5
DO
Status Indication pin along with P0_4, refer to Table 2-3
13
11
P1_2/SCL
DO
I2C SCL
14
12
P1_3/SDA
DIO
I2C SDA
15
13
P1_7/CTS
DIO
Configurable Control or Indication pin or
UART CTS (input)
16
14
P0_5
DIO
Configurable Control or Indication pin
17
15
P0_0/RTS
DIO
Configurable Control or Indication pin or
UART RTS (output)
18
16
P2_0
DI
System configuration pin along with P2_4 and EAN
pins, used to set the BM78 in any one of the following
three modes: Application mode (for normal operation),
Test mode (to change EEPROM values), and Write
Flash mode (to enter the new firmware into the module),
refer to Table 2-1
19
17
P2_4
DI
System configuration pin along with P2_0 and EAN
pins, used to set the module in any one of the following
three modes: Application mode (for normal operation),
Test mode (to change EEPROM values), and Write
Flash mode (to enter new firmware into the module),
refer to Table 2-1
A = Analog
D = Digital
I = Input
Legend:
DS60001380A-Page 6
O = Output
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BM78
TABLE 1-1:
PIN DESCRIPTION (CONTINUED)
Description
S5 Pin
05 Pin
Symbol
Type
20
18
EAN
DI
External address-bus negative System configuration pin
along with P2_0 and P2_4 pins, used to set the module
in any of the three modes: Application mode (for normal
operation), Test mode (to change EEPROM values),
and Write Flash mode (to enter new firmware into the
module), refer to Table 2-1
ROM: Must be pulled high to VDD_IO
FLASH: Must be pulled down with 4.7Kohm to GND
21
19
RST_N
DI
Module Reset (active-low) (internal pull up)
Apply a pulse of at least 63 ns
22
20
RXD
DI
UART data input
23
21
TXD
DO
UART data output
24
22
P3_1
DIO
Configurable Control or Indication pin
(Internally pulled-up, if configured as an input)
25
23
P3_2
DIO
Configurable Control or Indication pin
(Internally pulled-up, if configured as an input)
26
24
P3_3
DIO
Configurable Control or Indication pin
(Internally pulled-up, if configured as an input)
27
25
P3_4
DIO
Configurable Control or Indication pin
(Internally pulled-up, if configured as an input)
28
26
P3_6
DIO
Do not connect
29
27
P3_7
DIO
Configurable Control or Indication pin
(Internally pulled-up, if configured as an input)
30
28
LED1
DO
Status LED, connect to LDO33_0
31
29
GND
Power
—
30
BT_RF
AIO
32
Legend:
—
GND
Power
A = Analog
D = Digital
I = Input
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Ground reference
External antenna connection(50 ohms)
Ground reference
O = Output
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BM78
Figure 1-2 and Figure 1-3 illustrate the pin diagrams of
the BM78SPPS5MC2/NC2 and BM78SPP05MC2/NC2
modules.
FIGURE 1-2:
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BM78SPPS5MC2/NC2 PIN DIAGRAM
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BM78
FIGURE 1-3:
BM78SPP05MC2/NC2 PIN DIAGRAM
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BM78
NOTES:
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BM78
2.0
APPLICATION INFORMATION
2.1
System Configuration
The I/O pins, P2_0, P2_4 and EAN, place the BM78
into operating mode and each of these pins have internal pull up and allow configuration settings and firmware to be updated from UART. Table 2-1 provides
system configuration details.
TABLE 2-1:
SYSTEM CONFIGURATION SETTINGS
Module
P2_0
P2_4
EAN
BM78SPPx5NC2
(ROM Variant)
Low
High
High
Write EEPROM and test mode
High
High
High
Normal operation/application mode
Low
Low
High
Write FLASH
Low
High
Low
Write EEPROM and test mode
High
High
Low
Normal operational/application mode
BM78SPPx5MC2
(Flash Variant)
2.2
Operational Mode
Control and Indication I/O Pins
The I/O pins, P0_0, P0_5, P1_7, P3_1, P3_2, P3_3,
P3_4, and P3_7, are configurable control and indication pins. The control signals are inputs to the BM78
and the indication signals are outputs from the BM78.
Table 2-2 provides default I/O pin configuration details.
PROFILE_IND
INQUIRY CONTROL
PAIRING_KEY
UART_RX_IND
LINK_DROP_CONTROL
(DISCONNECT)
GET WIFI INFO KEY
RSSI_IND
LOW_BATTERY_IND
UART_CTS(1,2)
■
P0_0
P0_5
CONTROL AND INDICATION I/O PIN ASSIGNMENTS
UART_RTS(1,2)
N/C
PINS
TABLE 2-2:
■
■
P1_7
■
P3_1
■
P3_2
■
P3_3
■
P3_4
■
P3_7
Note 1: The RTS pin can only be assigned to P0_0 and the CTS pin can only be assigned to P1_7.
2: The RTS and CTS pins can be configured as GPIOs if flow control is disabled.
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BM78
2.3
Status Indication I/O Pins
The I/O pins, P1_5 and P0_4, are status indicator pins:
Status_IND_1 and status_IND_2. Together these pins
provide status indication to MCUs. Table 2-3 provides
status indication of the P1_5 and P0_4 pins.
TABLE 2-3:
P1_5/STATUS_IND_1
P0_4/STATUS_IND_2
H
H
Power-on (default setting) and deep-sleep state.
HH status should be stable for at least 500 ms.
H
L
Access state
L
H
Link state
(UART data transmitting)
L
L
Link state (no UART data transmitted)
L = Low
H = High
Legend:
2.4
STATUS INDICATION
Indication
Power Tree
Figure 2-1 illustrates the power tree diagram of the
BM78.
FIGURE 2-1:
DS60001380A-Page 12
POWER TREE DIAGRAM
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BM78
2.5
Software Button (SW_BTN)
The Software Button (SW_BTN) input pin powers the
BM78 ON (high) or OFF (low) into the S4 mode. The S4
mode is the Deep-sleep mode and the S2 mode is the
FIGURE 2-2:
Sleep mode. The S4 mode can only be triggered by the
SW_BTN pin, and the power consumption is lower in
the S4 mode.
Figure 2-2 through Figure 2-4 display the waveforms
for the BM78 in the high and low status, that is access
and link status.
SW_BTN TIME (HIGH) AT APP MODE(1,2,3,4,5)
Note 1: MCU can send UART command, refer to Table 2-3.
2: Time duration (475 ms) is for reference purpose only, check the status pin.
3: Reset is ‘no connect’.
4: Time is configured as default setting.
5: Data corresponds to the BM78SPPx5NC2 (ROM variant) module.
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BM78
FIGURE 2-3:
SW_BTN TIME (LOW) AT ACCESS STATES(1,2,3)
Note 1: Reset is ‘no connect’.
2: Time is configured as default setting.
3: Data corresponds to the BM78SPPx5NC2 (ROM variant) module.
FIGURE 2-4:
SW_BTN TIME (LOW) AT LINK STATES(1,2,3)
Note 1: 830 ms time duration is a typical value measured on iPhone 6 and this time duration can vary from one smart
phone to another.
2: Reset is ‘no connect’.
3: Time is configured as default setting.
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BM78
2.6
WAKE UP
The WAKE UP input pin wakes the BM78 from Sleep
mode (active-low) and wake up is always from Sleep
mode (S2) to Standby mode. Figure 2-5 illustrates the
timing diagram of the BM78 in the Wake Up mode.
FIGURE 2-5:
WAKEUP TIME(1,2)
Note 1: 85 ms is for reference time and the user should check the status pin.
2: Refer to Table 2-3 for the status of the P0_4/P1_5 pin.
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BM78
2.7
External Reset
The watchdog timer (WDT) can Reset the BM78 which
has an integrated Power-on Reset (POR) circuit that
reset all circuits to a known Power-on state. This action
can also be driven by an external Reset signal that can
be used to externally control the device, forcing it into a
FIGURE 2-6:
Power-on Reset state. The Reset signal input is
active-low and connection is not required in most of the
applications.
Figure 2-6 illustrates the timing diagram of the BM78
when it is in the Reset (RST_N is set to active low)
state.
TIMING WAVEFORMS ON RESET (WHEN RST_N IS SET TO ACTIVE LOW)(1,2,3,4)
Note 1: Auto Pattern can use external Reset, refer to Section 3.0 “Operating Pattern”.
2: The RST_N state trigger must be greater than 63 ns.
3: Manual pattern can use external Reset and Reset command, refer to Section 3.0 “Operating Pattern”.
4: Time duration (350 ms) is for reference purpose only, check the status pin.
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BM78
2.8
LED Driver
The BM78 has a dedicated LED driver and the LED
(LED1) can be connected directly with the BM78 using
this driver, see Figure 2-7.
The maximum current sourcing for the LED is 5 mA and
it provides 16 options (steps) to trim the brightness.
The LED brightness can be configured using the User
Interface (UI) tool, a Windows® configuration utility.
FIGURE 2-7:
The following are status indication of the LED and each
indication is a configurable flashing sequence:
•
•
•
•
•
Standby
Link Back
Low Battery
Inquiry
Link
LED DRIVER
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BM78
2.9
Host MCU Interface over UART
Figure 2-8 illustrates an example of UART interface
with host MCU and power scheme using 3.3V to the
VDD. Battery power is applied to the BAT_IN pin. From
the LDO33_O pin, voltage can be routed to the
FIGURE 2-8:
VDD_IO pin and external circuitry including the MCU.
This power scheme ensures that the BM78 and MCU
I/O voltages are compatible.
Note:
The internal 3.3V LDO current source
should not exceed 50 mA (i.e maximum).
POWER AND MCU INTERFACE EXAMPLE FOR BM78
Note 1: Ensure that VDD_IO and MCU VDD voltages are compatible.
2: The control and indication ports are configurable
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2.10
Reference Circuit
Figure 2-9 through Figure 2-12 illustrate the reference schematic of the power
supply design implemented for the BM78.
FIGURE 2-9:
BM78SPP05MC2/NC2 REFERENCE CIRCUIT
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BM78
BM78SPP05MC2/NC2 REFERENCE CIRCUIT
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FIGURE 2-10:
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BM78SPPS5MC2/NC2 REFERENCE CIRCUIT
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FIGURE 2-11:
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BM78
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BM78
BM78SPPS5MC2/NC2 REFERENCE CIRCUIT
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FIGURE 2-12:
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BM78
3.0
OPERATING PATTERN
The BM78 provides two operating patterns, Auto Pattern and Manual Pattern, and the operating modes can
be configured through the UI tool or the host MCU. See
Figure 3-1.
FIGURE 3-1:
If the Auto_Pattern_Setting parameter is enabled, the
BM78 triggers the Auto Pattern state machine otherwise Manual Pattern is used. Configure mode is available only in Auto Pattern and it can be enabled or
disabled by the UI settings or host MCU.
OPERATING PATTERN CONFIGURATION
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BM78
3.1
Auto Pattern
In Auto Pattern, the BM78 automatically operates after
power on without any interference from the MCU. Auto
Pattern is the basic application of the BM78. Figure 3-2
illustrates the characteristics of Auto Pattern.
FIGURE 3-2:
AUTO PATTERN CHARACTERISTIC
Although the BM78 is set to operate in Auto Pattern
mode, it provides the flexibility for the MCU to perform
some specific settings in Configure mode by command
set. If the BM78 has enabled authenticated pairing, the
command set is required to accomplish the Bluetooth
link. The MCU doesn’t have to deal with the BM78
state, and the BM78 changes its state after power on.
However, the MCU can terminate the connection by
using GPIOs. The transparent pipe is used for
application data transmission and data is transmitted
between the remote host and MCU.
The MCU knows the state of the BM78 by GPIOs. The
configure mode is available only in Auto Pattern and it
can be enabled or disabled by UI tool settings. Basically, the MCU is communicating with the BM78 by
GPIOs, except for data transmission.
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BM78
Figure 3-3 illustrates how the BM78 changes its own
state. After power on, there are two options, one is to
enter Stand-by mode and the other is to enter
Link-Back mode, and it depends on if any device is
recorded in the BM78. Irrespective of the mode, the
BM78 waits for the remote side to establish a connection or tries to establish a connection with the remote
side. Once the connection is established, the state of
FIGURE 3-3:
the BM78 changes to connected mode. If the connection is terminated, the BM78 goes into Deep-Sleep
mode.
Note:
Link-Back mode is available only for SPP
profile or mode.
BM78 INTERNAL STATE MACHINE
The BM78 stays in Access state and it is ready for a
remote host to access. It either waits for the remote
side to create a connection or tries to create a connection on its own.
TABLE 3-1:
STATE INDICATION
State
Access State
Mode
Configure Mode
Stand-by Mode
Link-Back mode
Pairing Procedure
Link State
Connected Mode
Deep-sleep State
Deep-Sleep Mode
Configure mode and pairing procedure are also defined
as Access state. If the BM78 enters link state, it means
not only the Bluetooth link has been established successfully, but also the data session is triggered. MCUs
can transmit data to a remote host or receive data from
a remote host in this state.
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BM78
Figure 3-4 illustrates Auto Pattern transparent pipe. If
MCU wants to send data (12345) to the remote side,
the data should be in the.hex format to the BM78 and
the BM78 transmits the received data to the remote
side. Similarly, if the BM78 receives data from the
remote host, it sends the data in the.hex format to the
MCU.
FIGURE 3-4:
3.2
AUTO PATTERN TRANSPARENT PIPE
Manual Pattern
In Manual Pattern, the MCU communicates with the
BM78 using command sets. The MCU must send correct commands to handle the state of the BM78. The
change in the BM78 state is based on the MCU commands.
FIGURE 3-5:
DS60001380A-Page 26
The data pipe for Manual Pattern is different from Auto
Pattern. Since the MCU is communicating with the
MCU by command sets, the data transmission will follow the command set rule. This is defined as protocol
pipe. In Manual Pattern, the MCU can get the detail status by the BM78_Status_Report event.
Figure 3-5 illustrates the characteristics of Manual Pattern.
MANUAL PATTERN CHARACTERISTICS
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BM78
Figure 3-6 illustrates the MCU state change in Manual
Pattern. For Manual Pattern, all MCU state change
requires a corresponding command. For example, the
MCU sends the Invisible_Setting command with
the parameter Enter_Standby_Mode, then the BM78
goes into stand-by mode. The MCU sends the
SPP_Create_Link command, then BM78 goes into
Link-Back mode.
nection is terminated. The MCU should decide on the
mode of the BM78 once the connection is terminated,
that is based on the overall system behavior.
In Auto Pattern, the BM78 goes into Deep-Sleep mode
once the connection is terminated, and in Manual Pattern the BM78 stays in Idle mode even after the con-
FIGURE 3-6:
STATE CHANGES BY MCU IN MANUAL PATTERN
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BM78
Figure 3-7 illustrates the Manual Pattern protocol pipe.
If the MCU wants to send data (12345) to remote side,
the data format should follow the UART command
protocol.
FIGURE 3-7:
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MANUAL PATTERN PROTOCOL PIPE
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BM78
3.3
3.3.1
Mode Definition
CONFIGURE MODE
The Configure mode configures the relative settings
before the BM78 enters into Auto Pattern state. If Configure mode is enabled, the BM78 will send Configure
mode status event to notify the MCU that the BM78 is
ready to receive commands. If the BM78 doesn’t
FIGURE 3-8:
receive any valid command within the specified Configure mode time, it will exit from Configure mode automatically. Once the MCU sends any valid command
within the Configure mode time, the BM78 will not exit
Configure mode until the MCU gives the leave Configure mode command. Once the BM78 exits from Configure mode, it goes to process Auto Pattern state
machine.
CONFIGURE MODE
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BM78
3.3.2
STANDBY MODE
• SPP (BR/EDR)
- Enable the inquiry scan and page scan in this
mode
- Configurable to be discoverable
- Ready to be paired
• Bluetooth Low Energy (BLE)
- Enable the undirected advertising in this
mode
- Ready to be paired
3.3.3
LINK-BACK MODE
• SPP (BR/EDR)
- Enable page procedure to establish dedicated or last connected Bluetooth SPP link
- Configurable to be invisible situation
• BLE
- No BLE link-back behavior because of iOS
limitation
- Configurable to be invisible situation
- Ready to be paired
3.3.4
CONNECTED MODE
• SPP (BR/EDR)
- Use SPP or iAP protocol to exchange the
application data
- Connection Establish status: SPP Connected
mode
• BLE
- Use GATT protocol to exchange the application data
- Connection establish status: BLE Connected
mode
3.3.5
DEEP-SLEEP MODE
• Auto Pattern
- Enter into Deep-Sleep mode automatically
- Wake-up trigger: Wakeup pin
• Manual Pattern
- Enter into Deep-Sleep mode by MCU
command assign
- Wake-up trigger: Wakeup pin or
UART_RX_Ind pin
DS60001380A-Page 30
Advance Information
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BM78
4.0
ELECTRICAL CHARACTERISTICS
This section provides an overview of the electrical characteristics of the BM78 module. Additional information will
be provided in future revisions of this document as it becomes available.
Absolute maximum ratings for the BM78 devices are listed below. Exposure to these maximum rating conditions for
extended periods may affect device reliability. Functional operation of the device at these or any other conditions, above
the parameters indicated in the operation listings of this specification, is not implied.
Absolute Maximum Ratings
Ambient temperature under bias.............................................................................................................. .-20°C to +70°C
Storage temperature .............................................................................................................................. -65°C to +150°C
Voltage on VDD with respect to VSS ......................................................................................................... -0.3V to +3.6V
Maximum output current sunk by any I/O pin..........................................................................................................12 mA
Maximum output current sourced by any I/O pin.....................................................................................................12 mA
Note:
Stresses above those listed under “Absolute Maximum Ratings” may cause permanent damage to the
device. This is a stress rating only and functional operation of the device at those or any other conditions,
above those indicated in the operation listings of this specification, is not implied. Exposure to maximum
rating conditions for extended periods may affect device reliability.
 2016 Microchip Technology Inc.
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DS60001380A-Page 31
BM78
Table 4-1 through Table 4-7 provide the recommended
operating conditions and the electrical specifications of
the BM78.
TABLE 4-1:
RECOMMENDED OPERATING CONDITIONS
Rating
Min.
Typical
Max.
Ambient Operating temperature range
-20ºC
+25ºC
+70ºC
Relative Humidity (Operating)
10%
—
90%
Relative Humidity (Storage)
ESD
10%
—
90%
HBM
—
±2KV
—
MM
—
±200V
—
—
1000 hrs
—
HTOL (Note 1)
Supply voltage: BAT_IN
3.3V
—
4.2V
Supply voltage: 1V8, VCC_RF, VDD_XO, AVDD_SAR
1.8V
1.9V
2.1V
SW_BTN
3.3V
—
4.2V
—
—
3.6V
LED1
Reset VTH,res threshold voltage
—
1.6V
—
VIL input logic levels low
-0.3V
—
0.8V
VIH input logic levels high
2.0V
—
3.6V
—
—
0.4V
VOL output logic levels low (IOl = 12mA)
VOH output logic levels high (IOh = 12mA)
2.4V
—
—
RF continuous Tx mode
—
—
43 mA
RF continuous Rx mode
—
—
37 mA
Note 1: HTOL life test condition: +125ºC, BAT_IN = 4.2V, LDO33_O = 3.3V, LDO18_O = 1.9V.
TABLE 4-2:
3.3V LDO ELECTRICAL PARAMETERS(1,2)
Parameter
Min.
Typical
Max.
Unit
Operating Temperature
-20
—
+70
ºC
Output Current (VIN = 3.6V /load regulation with 100mV drop)
—
100
—
mA
Quiescent Current (VIN = 3.6V)
—
150
—
uA
Min.
Typical
Max.
Unit
Operating Temperature
-20
—
+70
ºC
Output Current (VIN = 3.6V/load regulation with 0.3mV drop)
—
100
—
uA
Quiescent Current (VIN = 3.6V)
—
120
—
uA
Note 1: With 10 uF capacitor at LDO33_O as the condition for IP verification.
2: Output voltage can be calibrated using the MP tool
TABLE 4-3:
PMU LDO(1,2)
Parameter
Note 1: With 1uF capacitor at PMULDO_O as the condition for IP verification.
2: Output voltage can be calibrated by using the MP tool.
TABLE 4-4:
SAR-ADC AND BATTERY VOLTAGE DETECTOR
Parameter
Operating Temperature
DS60001380A-Page 32
Min.
Typical
Max.
Unit
-20
—
+70
ºC
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BM78
TABLE 4-4:
SAR-ADC AND BATTERY VOLTAGE DETECTOR
Parameter
Min.
Typical
Max.
Unit
AVDD_SAR power supply
—
SAR_BAT detection (Note 1)
3.3
1.8
—
V
—
4.2
Resolution
V
—
10
—
bit
Operating Current (including bandgap)
—
—
1
mA
Deep-sleep Current
—
—
1
uA
Note 1: SAR_BAT is connected with BAT_IN internally for battery voltage detection.
TABLE 4-5:
INTENSITY CONTROLLABLE LED DRIVER
Parameter
Operating Temperature
Min.
Typical
Max.
Unit
-20
—
+70
ºC
Open-drain Voltage
—
—
3.6
V
Current Step
—
0.3
—
mA
Programmable Current Range
0
—
5
mA
Intensity control
—
16
—
step
Power down open-drain current
—
—
1
uA
Deep-sleep Current
—
—
1
uA
TABLE 4-6:
POWER CONSUMPTION-CLASSIC(1,2)
Test Condition
Current Consumption (avg.) (mA)
Remarks
Standby mode
2.543
—
Deep-sleep mode
0.187
Connected+Sniff, Master (no data)
0.541
No data was transmitted
Sniff interval = 500 ms
—
Connected+Sniff, Slave (no data)
0.551
No data was transmitted
Sniff interval = 500 ms
Data, Master
10.67
Data transmitted at 115200 bps;
block size = 500
Data, Slave
14.87
Data transmitted at 115200 bps;
block size = 500
Note 1: Classic BR/EDR and RX_IND functions are enabled.
2: The data corresponds to BM78SPPx5NC2 (ROM variant).
TABLE 4-7:
POWER CONSUMPTION-LOW ENERGY(1,2,3)
Test Condition
Current Consumption (avg.) (mA)
Deep-sleep mode
0.13
—
LE fast advertising
1.21
LE fast advertising interval = 100 ms
0.88
LE fast advertising interval = 160 ms
0.48
LE fast advertising interval = 500 ms
1.72
LE fast advertising interval = 100 ms+
Beacon 100 ms
0.62
LE fast advertising interval = 500 ms+
Beacon 500 ms
 2016 Microchip Technology Inc.
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Remarks
DS60001380A-Page 33
BM78
TABLE 4-7:
POWER CONSUMPTION-LOW ENERGY(1,2,3) (CONTINUED)
Test Condition
Current Consumption (avg.) (mA)
Reduced power advertising
0.39
LE Reduced Power advertising
interval = 961 ms
1.00
LE Reduced Power advertising
interval = 961 ms+Beacon 100 ms
0.51
LE Reduced Power advertising
interval = 961 ms+Beacon 500 ms
Connected (No data)
0.39
Connection interval = 1500 ms
0.43
Connection interval = 600 ms
Connected (iPhone® 6 to module)
0.45
Connection interval = 500 ms
Connected (module to iPhone 6)
Remarks
0.60
Connection interval = 200 ms
6.6
Connection interval = 500 ms
7.0
Connection interval = 200 ms
Note 1: Low energy, RX_IND function is enabled.
2: Data corresponds to the BM78SPPx5NC2 (ROM variant).
3: Only low energy
DS60001380A-Page 34
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BM78
5.0
RADIO CHARACTERISTICS
Table 5-1 provides the transmitter
characteristics of the BM78 module.
TABLE 5-1:
performance
TRANSMITTER PERFORMANCE(1,2)
BDR power
EDR (2M/3M) power
LE power
Min.
Typical
Max.
Bluetooth
Specification
Unit
dBm
—
1.5
—
-6 ~ +4
—
-1
—
-6 ~ +4
—
0.5
—
-20 ~ +10
Note 1: The RF Transmit power can be calibrated during production by using the MP Tool software and the
MT8852 Bluetooth Test equipment.
2: Test condition: VCC RF = 1.80V, temperature = 25ºC.
Table 5-2 provides the receiver performance characteristics of the BM78 module.
TABLE 5-2:
RECEIVER PERFORMANCE(1)
Min.
Typical
Max.
BDR Sensitivity
—
-90
—
EDR 2M Sensitivity
—
-90
—
EDR 3M Sensitivity
—
-82
—
LE Sensitivity
—
-92
—
Bluetooth
Specification
≤-70
Unit
dBm
Note 1: Test condition: VCC RF = 1.80V, temperature = 25ºC.
 2016 Microchip Technology Inc.
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DS60001380A-Page 35
BM78
NOTES:
DS60001380A-Page 36
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BM78
6.0
PHYSICAL DIMENSIONS
Figure 6-1 illustrates the physical dimensions of the
BM78SPPS5MC2/NC2 module.
FIGURE 6-1:
BM78SPPS5MC2/NC2 MODULE DIMENSIONS
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DS60001380A-Page 37
BM78
Figure 6-2 illustrates the recommended host PCB foot print.
FIGURE 6-2:
DS60001380APage 38
BM78SPPS5MC2/NC2 RECOMMENDED PCB FOOTPRINT
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BM78
Figure 6-3 illustrates the recommendations for mounting the BM78SPPS5MC2/NC2 on the host PCB, and it
also shows the minimum ground plane area to the left
and right of the module for the best antenna performance.
recommended as needed for host PCB EMC noise
reduction. For best range performance, keep all external metal at least 31 mm away from the ceramic chip
antenna.
Avoid top copper layer near the test pin area. When
designing the host PCB, the areas under the antenna
should not contain any top, inner, or bottom copper
layer. A low-impedance ground plane will ensure best
radio performance (best range and lowest noise). The
ground plane can be extended beyond the minimum
FIGURE 6-3:
BM78SPPS5MC2/NC2 HOST PCB MOUNTING SUGGESTION
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DS60001380A-Page 39
BM78
Figure 6-4 illustrates the physical dimensions of the
BM78SPP05MC2/NC2 module.
FIGURE 6-4:
DS60001380APage 40
BM78SPP05MC2/NC2 MODULE DIMENSIONS
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BM78
Figure 6-5 illustrates the recommended host PCB foot
print.
FIGURE 6-5:
BM78SPP05MC2/NC2 RECOMMENDED PCB FOOTPRINT
 2016 Microchip Technology Inc.
Advance Information
DS60001380A-Page 41
BM78
Figure 6-6 illustrates the recommended mounting
details for the BM78SPP05MC2/NC2 module and recommended layout of the host PCB.
possible for minimum loss and better impedance
matching. If the micro-strip trace is longer, it should be
a 50 ohm impedance.
A low-impedance ground plane will ensure best radio
Pin30
performance (best range, lowest noise).
(BT_RF) is a 50 ohm connection to an external antenna
connector, PCB trace antenna, or component (ceramic
chip) antenna through a host PCB with 50 ohm impedance and micro-strip trace. This trace can be extended
to include passive parts for antenna attenuation padding, impedance matching, or to provide test posts. It is
recommended that the micro-strip trace be as short as
FIGURE 6-6:
DS60001380APage 42
BM78SPP05MC2/NC2 HOST PCB MOUNTING SUGGESTION
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BM78
7.0
REFLOW PROFILE
The BM78 should be assembled using a standard
lead-free reflow profile, IPC/JEDEC J-STD-020. The
BM78 can be soldered to the host PCB by using the
standard leaded and lead-free solder reflow profile.
To avoid damage to the module, follow these recommendations:
• Follow solder reflow recommendations provided
in Microchip Technology Application Note “AN233
Solder Reflow Recommendation (DS00233)”.
• Refer to the solder paste data sheet for specific
reflow profile recommendations.
• Do not exceed the peak temperature (TP) of
250ºC.
• Use no-clean flux solder paste.
• Do not wash as moisture can be trapped under
the shield.
• Use only one flow. If the PCB requires multiple
FIGURE 7-1:
flows, apply the module on the final flow.
• Standard: IPC/JEDEC J-STD-020.
- Condition: Preheat:150~200 ℃ for 60~120
seconds.
- Average ramp-up rate (217 ℃ to peak): 3 ℃
sec max.
- Temperature maintained above 217: 60~150
seconds.
- Time within 5℃ of peak temperature: 30 ~ 40
seconds.
- Peak temperature: 260 +5/-0 ℃ .
- Ramp-down rate (peak to 217): 6 ℃ /sec.
max.
- Time 25 ℃ to peak temperature: 8 minutes
max.
- Cycle interval 5 minutes.
REFLOW PROFILE
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DS60001380A-Page 43
BM78
NOTES:
DS60001380A-Page 44
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 2016 Microchip Technology Inc.
BM78
8.0
MODULE PLACEMENT
For a Bluetooth wireless product, the antenna placement affects the performance of the whole system. The
antenna requires free space to radiate the RF signal
and it cannot be surrounded by the ground plane.
Microchip recommends that the areas underneath the
antenna on the host PCB should not contain copper on
top, inner, or bottom layer.
The ground plane can be extended beyond the minimum recommended as required for the main PCB EMC
noise reduction. For the best range performance, keep
all external metal away from the ceramic chip antenna,
that is minimum 15 mm away.
Figure 8-1 illustrates an example of good and poor
antenna placement on a host PCB with ground plane.
FIGURE 8-1:
TABLE 8-1:
MODULE PLACEMENT EXAMPLES
RECOMMENDED ANTENNA
Description
ANT ANT3216A063R2400A PIFA 2.4GHZ L3.2W1.6
 2016 Microchip Technology Inc.
Manufacturer Part Number
Manufacturer
ANT3216A063R2400A
YAGEO
Advance Information
DS60001380A-Page 45
BM78
Figure 8-2 illustrates the BM78 module is mounted on
the BM78 Evaluation Board (EVB). It also shows the
recommended keep out area for the antenna.
FIGURE 8-2:
Note:
KEEP OUT AREA RECOMMENDED FOR ANTENNA
For additional information on free space
for antenna placement design, refer to the
design rule document of the antenna
manufacturer.
DS60001380A-Page 46
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BM78
8.1
BM78SPPS5MC2/NC2 Ceramic Chip Antenna
The BM78SPPS5MC2/NC2 contains an integral
ceramic chip antenna. Figure 8-3 illustrates the
antenna radiation pattern of the ceramic chip antenna
on the BM78SPPS5MC2/NC2.
FIGURE 8-3:
TABLE 8-2:
BM78SPPS5MC2/NC2 ANTENNA RADIATION PATTERN
ANTENNA RADIATION
PATTERN DETAILS
Parameter
Values
Frequency
2450 MHz
Peak Gain
1.63 dBi
Efficiency
71.55%
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DS60001380A-Page 47
BM78
NOTES:
DS60001380A-Page 48
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ORDERING INFORMATION
BM78
DS60001380APage 49
9.0
Table 9-1 provides the various SKUs of the BM78 module.
TABLE 9-1:
BM78 MODULE SKUS
Device
Microchip IC
Antenna
Description
Shield
BM78SPPS5MC2
IS1678SM-151
On-board
BT4.2 Dual Mode, Class 2, Flash Variant
Yes
BM78SPP05MC2
IS1678SM-151
External
BT4.2 Dual Mode, Class 2, Flash Variant
No
No
BM78SPP05MC2-0002AA
BM78SPPS5NC2
IS1678S-152
On-board
BT4.2 Dual Mode, Class 2, ROM Variant
Yes
Planned
BM78SPPS5NC2-0002AA
BM78SPP05NC2
IS1678S-152
External
BT4.2 Dual Mode, Class 2, ROM Variant
No
No
BM78SPP05NC2-0002AA
Note:
Contact Microchip Sales office for information on Bluetooth 4.2 ROM variants of the BM78.
Regulatory Certification
Ordering Number
FCC, IC, CE, MIC, KCC, NCC, BM78SPPS5MC2-0002AA
JRF
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BM78
NOTES:
DS60001380A-Page 50
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BM78
APPENDIX A:
CERTIFICATION
NOTICES
The BM78 has received regulatory approval for the following countries:
• BT SIG/QDID: 75929
• United States/FCC ID: A8TBM78ABCDEFGH
• Canada:
- IC ID: 12246A-BM78SPPS5M2
- HVIN: BM78SPPS5M2
• Europe/CE
• Japan/MIC: 202-SMD070
• Korea/KCC: MSIP-CRM-mcp-BM78SPPS5MC2
• Taiwan/NCC No: CCAN15LP0510T4
A.1
REGULATORY APPROVAL
This section outlines the regulatory information for the
BM78 for the following countries:
•
•
•
•
•
•
•
UNITED STATES
The BM78 module has received Federal Communications Commission (FCC) CFR47 Telecommunications,
Part 15 Subpart C "Intentional Radiators" modular
approval in accordance with Part 15.212 Modular
Transmitter approval. Modular approval allows the end
user to integrate the BM78 module into a finished product without obtaining subsequent and separate FCC
approvals for intentional radiation, provided no
changes or modifications are made to the module circuitry. Changes or modifications could void the user's
authority to operate the equipment. The end user must
comply with all of the instructions provided by the
Grantee, which indicate installation and/or operating
conditions necessary for compliance.
The finished product is required to comply with all applicable FCC equipment authorizations regulations,
requirements and equipment functions not associated
with the transmitter module portion. For example, compliance must be demonstrated to regulations for other
transmitter components within the host product. The
requirements for unintentional radiators (Part 15 Subpart B "Unintentional Radiators"), such as digital
devices, computer peripherals, radio receivers, etc.;
and to additional authorization requirements for the
non-transmitter functions on the transmitter module
(i.e., Verification, or Declaration of Conformity) (e.g.,
transmitter modules may also contain digital logic functions) as appropriate.
 2016 Microchip Technology Inc.
LABELING AND USER
INFORMATION REQUIREMENTS
The BM78 has been labeled with its own FCC ID number, and if the FCC ID is not visible when the module is
installed inside another device, then the outside of the
finished product into which the module is installed must
also display a label referring to the enclosed module.
This exterior label can use wording as follows:
Contains Transmitter Module FCC ID: A8TBM78ABCDEFGH
or
Contains FCC ID:A8TBM78ABCDEFGH
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
A user's manual for the finished product should include
the following statement:
United States
Canada
Europe
Japan
Korea
Taiwan
Other Regulatory Jurisdictions
A.1.1
A.1.2
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.
Additional information on labeling and user information
requirements for Part 15 devices can be found in KDB
Publication 784748 available at the FCC Office of Engineering and Technology (OET) Laboratory Division
Knowledge Database (KDB)
http://apps.fcc.gov/oetcf/kdb/index.cfm.
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DS60001380A-Page 51
BM78
A.1.3
RF EXPOSURE
All transmitters regulated by FCC must comply with RF
exposure requirements. KDB 447498 General RF
Exposure Guidance provides guidance in determining
whether proposed or existing transmitting facilities,
operations or devices comply with limits for human
exposure to Radio Frequency (RF) fields adopted by
the Federal Communications Commission (FCC).
From the FCC Grant: Output power listed is conducted.
This grant is valid only when the module is sold to OEM
integrators and must be installed by the OEM or OEM
integrators. This transmitter is restricted for use with
the specific antenna(s) tested in this application for
Certification and must not be co-located or operating in
conjunction with any other antenna or transmitters
within a host device, except in accordance with FCC
multi-transmitter product procedures.
A.1.4
HELPFUL WEB SITES
Federal
Communications
http://www.fcc.gov.
Commission
(FCC):
FCC Office of Engineering and Technology (OET) Laboratory Division Knowledge Database (KDB):
http://apps.fcc.gov/oetcf/kdb/index.cfm.
A.2
Canada
The BM78 module has been certified for use in Canada
under Industry Canada (IC) Radio Standards Specification (RSS) RSS-247 and RSS-Gen. Modular approval
permits the installation of a module in a host device
without the need to recertify the device.
A.2.1
LABELING AND USER
INFORMATION REQUIREMENTS
Labeling Requirements for the host device (from Section 3.1, RSS-Gen, Issue 4, November 2014): The host
device shall be properly labeled to identify the module
within the host device.
The Industry Canada certification label of a module
shall be clearly visible at all times when installed in the
host device, otherwise the host device must be labeled
to display the Industry Canada certification number of
the module, preceded by the words "Contains transmitter module", or the word "Contains", or similar wording
expressing the same meaning, as follows:
Contains transmitter module IC:
12246A-BM78SPPS5M2
User Manual Notice for License-Exempt Radio Apparatus (from Section 8.4 RSS-Gen, Issue 4, November
2014): User manuals for license-exempt radio appara-
DS60001380A-Page 52
tus shall contain the following or equivalent notice in a
conspicuous location in the user manual or alternatively on the device or both:
This device complies with Industry Canada
license-exempt RSS standard(s). 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.
Transmitter Antenna (from Section 8.3 RSS-Gen, Issue
4, November 2014): User manuals for transmitters
shall display the following notice in a conspicuous location:
Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type
and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio
interference to other users, the antenna type and its
gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that
necessary for successful communication.
Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner avec
une antenne d'un type et d'un gain maximal (ou
inférieur) approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage
radioélectrique à l'intention des autres utilisateurs, il
faut choisir le type d'antenne et son gain de sorte que
la puissance isotrope rayonnée équivalente (p.i.r.e.)
ne dépasse pas l'intensité nécessaire à l'établissement d'une communication satisfaisante.
The above notice may be affixed to the device instead
of displayed in the user manual.
A.2.2
RF EXPOSURE
All transmitters regulated by IC must comply with RF
exposure requirements listed in RSS-102 - Radio Frequency (RF) Exposure Compliance of Radiocommunication Apparatus (All Frequency Bands).
A.2.3
HELPFUL WEB SITES
Industry Canada: http://www.ic.gc.ca/
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BM78
A.3
A.3.2
Europe
From R&TTE Compliance Association document Technical Guidance Note 01:
The BM78 module is an R&TTE Directive assessed
radio module that is CE marked and has been manufactured and tested with the intention of being integrated into a final product.
Provided the integrator installing an assessed
radio module with an integral or specific antenna
and installed in conformance with the radio module manufacturer's installation instructions
requires no further evaluation under Article 3.2
of the R&TTE Directive and does not require further involvement of an R&TTE Directive Notified
Body for the final product. [Section 2.2.4]
The BM78 module has been tested to R&TTE Directive
1999/5/EC Essential Requirements for Health and
Safety (Article (3.1(a)), Electromagnetic Compatibility
(EMC) (Article 3.1(b)), and Radio (Article 3.2) and are
summarized in Section TABLE A-1: “EUROPEAN
COMPLIANCE TESTING”. A notified body opinion has
also been issued.
The European Compliance Testing listed in
Section TABLE A-1: “EUROPEAN COMPLIANCE
TESTING” was performed using the integral ceramic
chip antenna.
The R&TTE Compliance Association provides guidance on modular devices in document Technical Guidance
Note
01
available
at
http://www.rtteca.com/html/download_area.htm.
Note:
A.3.1
ANTENNA REQUIREMENTS
To maintain conformance to the testing
listed in Section TABLE A-1: “EUROPEAN COMPLIANCE TESTING”, the
module shall be installed in accordance
with the installation instructions in this
data sheet and shall not be modified.
When integrating a radio module into a
completed
product
the
integrator
becomes the manufacturer of the final
product and is therefore responsible for
demonstrating compliance of the final
product with the essential requirements of
the R&TTE Directive.
LABELING AND USER
INFORMATION REQUIREMENTS
The label on the final product which contains the BM78
module must follow CE marking requirements. The
R&TTE Compliance Association Technical Guidance
Note 01 provides guidance on final product CE marking.
TABLE A-1:
EUROPEAN COMPLIANCE TESTING
Certification
Standards
Article
Safety
EN 60950-1:2006+A11:2009
+A1:2010 +A12:2011+A2:2013
[3.1(a)]
Health
ETSI EN 300 328 V1.9.1
EN 62479:2010
EMC
EN 300 489-1 V1.9.2
[3.1(b)]
Laboratory
Report Number
10052799 001
TUV
Rheinland
10052796 001
10052797 001
10052437 001
EN 301 489-17 V2.2.1
Radio
ETSI EN 300 328 V1.9.1
Notified Body
Opinion
DS60001380A-Page 53
0197
(3.2)
—
10052796 001
10052797 001
TUV
Rheinland
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10048937 001
 2016 Microchip Technology Inc.
BM78
A.3.3
HELPFUL WEBSITES
A document that can be used as a starting point in
understanding the use of Short Range Devices (SRD)
in Europe is the European Radio Communications
Committee (ERC) Recommendation 70-03 E, which
can be downloaded from the European Radio Communications Office (ERO) at: http://www.ero.dk/.
The BM78 module is labeled with its own technical conformity mark and certification number. The final product
in which this module is being used must have a label
referring to the type certified module inside:
Additional helpful web sites are:
• Radio and Telecommunications Terminal Equipment (R&TTE):
http://ec.europa.eu/enterprise/rtte/index_en.htm
• European Conference of Postal and Telecommunications Administrations (CEPT):
http://www.cept.org
• European Telecommunications Standards Institute (ETSI):
http://www.etsi.org
• European Radio Communications Office (ERO):
http://www.ero.dk
• The Radio and Telecommunications Terminal
Equipment Compliance Association (R&TTE CA):
http://www.rtteca.com/
A.4
Japan
HELPFUL WEB SITES
Ministry of Internal Affairs and Communications (MIC):
http://www.tele.soumu.go.jp/e/index.htm
Association of Radio Industries and Businesses
(ARIB): http://www.arib.or.jp/english/
A.5
Korea
The BM78 module has received certification of conformity in accordance with the Radio Waves Act. Integration of this module into a final product does not require
additional radio certification provided installation
instructions are followed and no modifications of the
module are allowed.
A.5.1
The BM78 module has received type certification and
is labeled with its own technical conformity mark and
certification number as required to conform to the technical standards regulated by the Ministry of Internal
Affairs and Communications (MIC) of Japan pursuant
to the Radio Act of Japan.
Integration of this module into a final product does not
require additional radio certification provided installation instructions are followed and no modifications of
the module are allowed. Additional testing may be
required:
• If the host product is subject to electrical appliance safety (for example, powered from an AC
mains), the host product may require Product
Safety Electrical Appliance and Material (PSE)
testing. The integrator should contact their conformance laboratory to determine if this testing is
required.
• There is an voluntary Electromagnetic Compatibility (EMC) test for the host product administered
by VCCI: http://www.vcci.jp/vcci_e/index.html
A.4.1
A.4.2
LABELING AND USER
INFORMATION REQUIREMENTS
LABELING AND USER
INFORMATION REQUIREMENTS
The label on the final product which contains the BM78
module must follow KC marking requirements. The
integrator of the module should refer to the labeling
requirements for Korea available on the Korea Communications Commission (KCC) website.
The BM78 module is labeled with its own KC mark. The
final product requires the KC mark and certificate number of the module:
A.5.2
HELPFUL WEB SITES
Korea Communications Commission (KCC):
http://www.kcc.go.kr
National Radio Research Agency (RRA):
http://rra.go.kr
The label on the final product which contains the BM78
module must follow Japan marking requirements. The
integrator of the module should refer to the labeling
requirements for Japan available at the Ministry of
Internal Affairs and Communications (MIC) website.
DS60001380A-Page 54
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BM78
A.6
Taiwan
The BM78 module has received compliance approval
in accordance with the Telecommunications Act. Customers seeking to use the compliance approval in their
product should contact Microchip Technology sales or
distribution partners to obtain a Letter of Authority.
Integration of this module into a final product does not
require additional radio certification provided installation instructions are followed and no modifications of
the module are allowed.
A.6.1
LABELING AND USER
INFORMATION REQUIREMENTS
The BM78 module is labeled with its own NCC mark
and certificate number as below:
The user's manual should contain below warning (for
RF device) in traditional Chinese:
注意 !
依據 低功率電波輻射性電機管理辦法
第十二條 經型式認證合格之低功率射頻電機，非經許
可，
公司、商號或使用者均不得擅自變更頻率、加大功率或
變更原設計
之特性及功能。
第十四條 低功率射頻電機之使用不得影響飛航安全及
干擾合法通信；
經發現有干擾現象時，應立即停用，並改善至無干擾時
方得繼續使用。
前項合法通信，指依電信規定作業之無線電信。
低功率射頻電機須忍受合法通信或工業、科學及醫療用
電波輻射性
電機設備之干擾。
A.6.2
HELPFUL WEB SITES
National Communications
http://www.ncc.gov.tw
A.7
Commission
(NCC):
Other Regulatory Jurisdictions
Should other regulatory jurisdiction certification be
required by the customer, or the customer need to
recertify the module for other reasons, please contact
Microchip for the required utilities and documentation.
 2016 Microchip Technology Inc.
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DS60001380A-Page 55
BM78
APPENDIX B:
REVISION HISTORY
Revision A (January 2016)
This is the initial released version of this document.
DS60001380A-Page 56
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BM78
THE MICROCHIP WEB SITE
CUSTOMER SUPPORT
Microchip provides online support via our WWW site at
www.microchip.com. This web site is used as a means
to make files and information easily available to
customers. Accessible by using your favorite Internet
browser, the web site contains the following
information:
Users of Microchip products can receive assistance
through several channels:
• Product Support – Data sheets and errata,
application notes and sample programs, design
resources, user’s guides and hardware support
documents, latest software releases and archived
software
• General Technical Support – Frequently Asked
Questions (FAQ), technical support requests,
online discussion groups, Microchip consultant
program member listing
• Business of Microchip – Product selector and
ordering guides, latest Microchip press releases,
listing of seminars and events, listings of
Microchip sales offices, distributors and factory
representatives
•
•
•
•
Distributor or Representative
Local Sales Office
Field Application Engineer (FAE)
Technical Support
Customers
should
contact
their
distributor,
representative or Field Application Engineer (FAE) for
support. Local sales offices are also available to help
customers. A listing of sales offices and locations is
included in the back of this document.
Technical support is available through the web site
at: http://microchip.com/support
CUSTOMER CHANGE NOTIFICATION
SERVICE
Microchip’s customer notification service helps keep
customers current on Microchip products. Subscribers
will receive e-mail notification whenever there are
changes, updates, revisions or errata related to a
specified product family or development tool of interest.
To register, access the Microchip web site at
www.microchip.com. Under “Support”, click on
“Customer Change Notification” and follow the
registration instructions.
 2016 Microchip Technology Inc.
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DS60001380A-Page 57
BM78
NOTES:
DS60001380A-Page 58
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Note the following details of the code protection feature on Microchip devices:
•
Microchip products meet the specification contained in their particular Microchip Data Sheet.
•
Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the
intended manner and under normal conditions.
•
There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our
knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip’s Data
Sheets. Most likely, the person doing so is engaged in theft of intellectual property.
•
Microchip is willing to work with the customer who is concerned about the integrity of their code.
•
Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not
mean that we are guaranteeing the product as “unbreakable.”
Code protection is constantly evolving. We at Microchip are committed to continuously improving the code protection features of our
products. Attempts to break Microchip’s code protection feature may be a violation of the Digital Millennium Copyright Act. If such acts
allow unauthorized access to your software or other copyrighted work, you may have a right to sue for relief under that Act.
Information contained in this publication regarding device
applications and the like is provided only for your convenience
and may be superseded by updates. It is your responsibility to
ensure that your application meets with your specifications.
MICROCHIP MAKES NO REPRESENTATIONS OR
WARRANTIES OF ANY KIND WHETHER EXPRESS OR
IMPLIED, WRITTEN OR ORAL, STATUTORY OR
OTHERWISE, RELATED TO THE INFORMATION,
INCLUDING BUT NOT LIMITED TO ITS CONDITION,
QUALITY, PERFORMANCE, MERCHANTABILITY OR
FITNESS FOR PURPOSE. Microchip disclaims all liability
arising from this information and its use. Use of Microchip
devices in life support and/or safety applications is entirely at
the buyer’s risk, and the buyer agrees to defend, indemnify and
hold harmless Microchip from any and all damages, claims,
suits, or expenses resulting from such use. No licenses are
conveyed, implicitly or otherwise, under any Microchip
intellectual property rights unless otherwise stated.
Trademarks
The Microchip name and logo, the Microchip logo, dsPIC,
FlashFlex, flexPWR, JukeBlox, KEELOQ, KEELOQ logo, Kleer,
LANCheck, MediaLB, MOST, MOST logo, MPLAB,
OptoLyzer, PIC, PICSTART, PIC32 logo, RightTouch, SpyNIC,
SST, SST Logo, SuperFlash and UNI/O are registered
trademarks of Microchip Technology Incorporated in the
U.S.A. and other countries.
The Embedded Control Solutions Company and mTouch are
registered trademarks of Microchip Technology Incorporated
in the U.S.A.
Analog-for-the-Digital Age, BodyCom, chipKIT, chipKIT logo,
CodeGuard, dsPICDEM, dsPICDEM.net, ECAN, In-Circuit
Serial Programming, ICSP, Inter-Chip Connectivity, KleerNet,
KleerNet logo, MiWi, motorBench, MPASM, MPF, MPLAB
Certified logo, MPLIB, MPLINK, MultiTRAK, NetDetach,
Omniscient Code Generation, PICDEM, PICDEM.net, PICkit,
PICtail, RightTouch logo, REAL ICE, SQI, Serial Quad I/O,
Total Endurance, TSHARC, USBCheck, VariSense,
ViewSpan, WiperLock, Wireless DNA, and ZENA are
trademarks of Microchip Technology Incorporated in the
U.S.A. and other countries.
SQTP is a service mark of Microchip Technology Incorporated
in the U.S.A.
Silicon Storage Technology is a registered trademark of
Microchip Technology Inc. in other countries.
GestIC is a registered trademark of Microchip Technology
Germany II GmbH & Co. KG, a subsidiary of Microchip
Technology Inc., in other countries.
All other trademarks mentioned herein are property of their
respective companies.
© 2016, Microchip Technology Incorporated, Printed in the
U.S.A., All Rights Reserved.
ISBN: 978-1-5224-0133-9
QUALITY MANAGEMENT SYSTEM
CERTIFIED BY DNV
== ISO/TS 16949 ==
 2016 Microchip Technology Inc.
Microchip received ISO/TS-16949:2009 certification for its worldwide
headquarters, design and wafer fabrication facilities in Chandler and
Tempe, Arizona; Gresham, Oregon and design centers in California
and India. The Company’s quality system processes and procedures
are for its PIC® MCUs and dsPIC® DSCs, KEELOQ® code hopping
devices, Serial EEPROMs, microperipherals, nonvolatile memory and
analog products. In addition, Microchip’s quality system for the design
and manufacture of development systems is ISO 9001:2000 certified.
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DS60001380A-Page 59
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Technical Support:
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support
Web Address:
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Asia Pacific Office
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Indianapolis
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New York, NY
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Canada - Toronto
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07/14/15
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