LITE ON TECHNOLOGY BSM700 Bluetooth Module User Manual BSM 700 BT4 0 Spec ver1 3

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PRODUCT SPECIFICATION
CSR8670 Full function Bluetooth Module
BSM-700
Lite-On P/N: 2170000002KD
Version 1.3
Author: Action Cheng
Editor: Javon Tseng
Project Leader: Daniel KW Yang Approved by: Daniel KW Yang
Change History
Revision
Version 1.0
Date
2014 / 01 / 13
Author
Javon Tseng
Version1.1
2014 /01 / 24
Daniel
Version1.2
2014 /02 / 06
Javon
Version1.3
2014 /04 / 03
Javon
Change List
Preliminary
1. Add pinout dimensions
2. Remove NC (Pin57) and connect
AIO[0] to PIN 57.
3. Remove PIO0 (Pin4) and connect
AIO[1] to PIN 4
4. Add PIO_3 to PIN60
1. Update Block Diagram
2. Update Application block diagram
3. Update main board schematic
1. Add Packing Model
2. Update Current Consumption
3. Update Package Dimensions
4. Update RF Characteristics
5. Update Interface Specifications
6. Update Layout
* This document contains confidential proprietary information and is property of LTC. The contents of
this document should not be disclosed to unauthorized persons without the written consent of LTC.
BSM-700 Specification
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CONTENT
1 PRODUCT OVERVIEW ................................................................................................................. 4
1.1
DESCRIPTION ........................................................................................................................ 4
1.2
FEATURES ............................................................................................................................. 4
1.3
GENERAL SPECIFICATIONS ................................................................................................. 4
1.4
BLOCK DIAGRAM .................................................................................................................. 5
1.5
PIN CONFIGURATION............................................................................................................ 5
1.6
PINOUT DIAGRAM ................................................................................................................ 8
1.7
PACKAGE DIMENSIONS......................................................................................................... 9
1.8
DIMENSION ........................................................................................................................ 10
1.9
SHIELDING .......................................................................................................................... 11
2 ELECTRICAL CHARACTERISTICS ................................................................................................. 12
2.1
ABSOLUTE MAXIMUM RATINGS ......................................................................................... 12
2.2
GUARANTEED OPERATING TEMPERATURE ......................................................................... 12
2.3
RECOMMENDED OPERATING CONDITIONS ........................................................................ 12
2.4
INPUT/OUTPUT TERMINAL CHARACTERISTICS.................................................................... 12
2.5
RF CHARACTERISTICS .......................................................................................................... 13
2.5.1 RADIO CHARACTERISTICS - BASIC DATA RATE .................................................................... 13
2.5.2 RADIO CHARACTERISTICS - ENHANCED DATA RATE ............................................................ 13
2.5.3 RADIO CHARACTERISTICS - LOW ENERGY ........................................................................... 13
2.6
CURRENT CONSUMPTION (DESIGN REFERENCE) ................................................................. 13
2.7
APPLICATION BLOCK DIAGRAM .......................................................................................... 14
3 RF MEASUREMENT ENVIRONMENT SYSTEM ............................................................................ 15
3.1
INTERNAL FLASH................................................................................................................. 15
3.2
SYSTEM AREA ..................................................................................................................... 15
3.3
RF AREA .............................................................................................................................. 16
3.4
USER AREA ......................................................................................................................... 16
4 INTERFACE SPECIFICATIONS ..................................................................................................... 17
4.1
UART INTERFACE ................................................................................................................ 17
BSM-700 Specification
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4.2
USB INTERFACE................................................................................................................... 17
4.3
DIGITAL AUDIO INTERFACE ................................................................................................. 17
5 NOTES ON OPERATION ............................................................................................................ 18
5.1
POWER-ON SEQUENCE ....................................................................................................... 18
5.2
IO STATE AT RESET AND RECOMMENDED TERMINATION HANDLING................................. 18
6 SCHEMATIC .............................................................................................................................. 19
6.1
MAIN BLOCK:...................................................................................................................... 19
6.2
RF ....................................................................................................................................... 20
7 PLACEMENT ............................................................................................................................. 20
8 LAYOUT .................................................................................................................................... 21
9 REFLOW CONDITION ................................................................................................................ 27
9.1
REFLOW TEMPERATURE PROFILE ....................................................................................... 27
10 MARKING AND PACKING MODEL ............................................................................................. 27
10.1 MARKING ........................................................................................................................... 27
10.2 PACKING MODEL ................................................................................................................ 28
11 CRITERIA FOR RELIABILITY TEST ............................................................................................... 29
12 FCC COMPLIANCE AND ADVISORY STATEMENT ....................................................................... 30
12.1 CLASS B:
(SECTION 15.105) .............................................................................................. 30
12.2 LABELING REQUIREMENTS ................................................................................................. 30
12.3 RF EXPOSURE WARNING .................................................................................................... 30
12.4 END PRODUCT LABELING .................................................................................................... 31
BSM-700 Specification
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1 Product Overview
1.1 Description
BSM-700 is a LGA type Bluetooth module which using CSR Chipset CSR8670C‑IBBH‑R
1.2 Features

 Bluetooth® v4.0 specification fully qualified software

 Radio includes integrated balun

 Class II (Max +4 dBm, 2.5mW)

 High-sensitivity Bluetooth receiver

 16Mb internal flash memory (64-bit wide,45ns)

 Integrated 16-bit Stereo Audio CODEC

 Embedded Kalimba DSP Co-Processor.

 Support for CSR's latest CVC technology for narrow-band and wideband voice
connections including wind noise reduction

 Audio interfaces: I²S, PCM and SPDIF

 Serial interfaces: UART, USB 2.0 full-speed, I²C

 Integrated dual switch-mode regulators, linear regulators and battery charger

 3 hardware LED controllers (for RGB) and ability to drive LCD segment display directly

 Green (RoHS compliant and no antimony or halogenated flame retardants)
1.3 General Specifications
Standard
Bus Interface
Form Factor
Bluetooth v3.0 EDR, 4.0 LE Compliant.
Data: UART / USB
Voice: PCM/I2S/Stereo Analog in/out
22mm x 18mm x 2.5mm
LGA (Land Grid Array) pads reliable PCB mounting.
Data Rate
1 Mbps, 2Mbps and Up to 3Mbps
Frequency Range
2.402 ~ 2.480 GHz
Transmit Output Power -6 ~ +4 dBm Class 2 Device
Receive Sensitivity
BER < 0.1% BER at -80 dBm
Operating Voltage
3.1V~3.6V I/O supply voltage
Antenna Type
Option1:I-pex connector
BSM-700 Specification
Option2:Feed point
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1.4 Block Diagram
1.5 Pin Configuration
No
Definition
Description
UART_RX
UART data in
UART_TX
UART data output
LED_0
LED driver[0]
Open drain
AUO[1]
Programmable input / output line
Analogue programmable input /
output line
LED_2
LED driver[2]
Open drain
PIO_6_I2C_SCK
Programmable input / output line
Bidirectional with weak
pull-down
USB_D+
USB data plus with selectable internal
1.5kΩ pull-up resistor
Bidirectional
USB_D-
USB data minus
Bidirectional
PIO_2
Programmable input / output line
Bidirectional with weak
pull-down
BSM-700 Specification
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Type
Bidirectional with strong
pull-up
Bidirectional with weak
pull-up
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Bidirectional with weak
pull-down
Bidirectional with weak
pull-down
Bidirectional with weak
pull-down
Bidirectional with weak
pull-down
Bidirectional with weak
pull-down
Bidirectional with weak
pull-down
Bidirectional with weak
pull-down
10
PIO_14
Programmable input / output line
11
PIO_10
Programmable input / output line
12
PIO_1
Programmable input / output line
13
PIO_4
Programmable input / output line
14
PIO_15
Programmable input / output line
15
PIO_11
Programmable input / output line
16
PIO_5
Programmable input / output line
17
LED_1
LED driver[1]
Open drain
18
PIO_7_I2C_SDA
Programmable input / output line
Bidirectional with weak
pull-down
19
GND
Ground
20
1V8
External 3.3V enable control
21
GND
Ground
22
VDDIO
Positive supply for I/O
23
GND
Ground
24
3V3
Positive supply for USB ports
25
GND
Ground
26
VBAT
Battery positive terminal
27
GND
Ground
28
USB_5V
Battery charger input
29
GND
Ground
30
VREGENABLE
Regulator enable input for system on
Input
31
MIC_IN_LN
Microphone input negative, left
Analogue in
32
MIC_IN_LP
Microphone input positive, left
Analogue in
33
MIC_BIAS_A
Microphone bias A
Analogue out
34
MIC_IN_RN
Microphone input negative, right
Analogue in
35
MIC_IN_RP
Microphone input positive, right
Analogue in
36
MIC_BIAS_B
Microphone bias B
Analogue out
37
BT_SPKR_RN
Speaker output negative, right
Analogue out
38
BT_SPKR_RP
Speaker output positive, right
Analogue out
39
BT_SPKR_LN
Speaker output negative, left
Analogue out
40
BT_SPKR_LP
Speaker output positive, left
Analogue out
BSM-700 Specification
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Output
Power input
Power input
Power input
Power input
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41
GND
Ground
42
GND
Ground
43
GND
Ground
44
Antenna2
External Antenna with RF PAD
45
GND
Ground
46
SPI_CLK
SPI clock
47
SPI_MOSI
SPI data in
48
BT_I2S_IN
I2S data in
49
BT_I2S_BCLK
I2S data clock
50
BT_I2S_LRCLK
I2S data sync
51
BT_I2S_OUT
I2S data out
52
SPI_MISO
SPI data out
53
RST#
Reset if low. Input de-bounced so must
be low for >5ms to cause a reset.
Input with strong pull-up
54
SPI_CS#
Chip select for SPI, active low.
Input with strong pull-up
55
FLASF_IO2
56
FLASF_CS#
Serial quad I/O flash data bit 2
Alternative function PIO[27]
SPI flash chip select.
Alternative function PIO[23]
57
AIO[0]
58
FLASF_IO1
59
FLASF_CLK
60
PIO_3
61
FLASF_IO0
62
FLASF_IO3
63
PIO_12
Programmable input / output line
Bidirectional with strong
pull-down
Bidirectional with strong
pull-down
Analogue programmable input /
output line
Bidirectional with strong
pull-down
Bidirectional with strong
pull-down
Bidirectional with weak
pull-down
Bidirectional with strong
pull-down
Bidirectional with strong
pull-down
Bidirectional with weak
pull-down
64
GND
Ground
65
GND
Ground
66
PIO_13
Programmable input / output line
BSM-700 Specification
Programmable input / output line
Serial quad I/O flash data bit 1.
Alternative function PIO[26]
SPI flash clock.
Alternative function PIO[21]
Programmable input / output line
Serial quad I/O flash data bit 0.
Alternative function PIO[25]
Serial quad I/O flash data bit 3.
Alternative function PIO[28]
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RF PAD
Input with weak pullDown
Input with weak pullDown
Bidirectional with weak
pull-down
Bidirectional with weak
pull-down
Bidirectional with weak
pull-down
Bidirectional with weak
pull-down
Output with weak pulldown
Bidirectional with weak
pull-down
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1.6 Pinout Diagram
(TOP view)
54 53
45 44
43
Pin1
57
56
55
60
59
58
63
62
61
66
65
64
15
29
16
28
17 18
BSM-700 Specification
27
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1.7 Package Dimensions
BSM-700 Specification
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1.8 Dimension
Dimension of BSM-700 : 22 x 18 x 2.5mm
BSM-700 Specification
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1.9 Shielding
Dimension of shielding : 20.7 x 16.7 x 1.5mm
Hole : 1.5mm
BSM-700 Specification
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2 Electrical Characteristics
2.1 Absolute Maximum Ratings
Rating
Min
-0.40
-0.40
-0.40
-0.40
USB_5V
VBAT
3V3
VDDIO
Max
5.75
4.40
3.60
3.60
Unit
2.2 Guaranteed Operating Temperature
Operating
Operating Temperature: -40 to 85 °C
Storage
Temperature: -40 to 105 °C
2.3 Recommended Operating Conditions
Rating
USB_5V
VBAT
3V3
VDDIO
1V8
1V35
Min
4.75
2.80
3.10
3.10
1.70
1.30
TYP
5.00
3.70
3.30
3.30
1.80
1.35
Max
5.75
4.30
3.60
3.60
1.95
1.40
Unit
2.4 Input/Output Terminal Characteristics
Rating
VIL input logic level low
VIH input logic level high
VOL output logic level low,
lOL = 4.0mA
VOH output logic level
high, lOH = -4.0mA
BSM-700 Specification
Min
-0.4
0.7xVDDIO
TYP
Max
0.4
VDDIO+0.4
0.4
Unit
0.75xVDDIO
3.60
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2.5 RF Characteristics
2.5.1 Radio Characteristics - Basic Data Rate
RF Characteristics
Bluetooth Specification with
I-PEX
SMA
Maximum RF transmit power -6 to 4
-6 to 4
Sensitivity at 0.1% BER
TYP. -80dB
TYP. -80dB
Unit
dBm
dBm
2.5.2 Radio Characteristics - Enhanced Data Rate
RF Characteristics
Sensitivity at 0.01% BER
Bluetooth Specification with
I-PEX
SMA
TYP. -80dB
TYP. -80dB
Unit
dBm
2.5.3 Radio Characteristics - Low Energy
RF Characteristics
Sensitivity at 30.8% BER
Bluetooth Specification with
I-PEX
SMA
TYP. -80dB
TYP. -80dB
Unit
dBm
2.6 Current Consumption (Design reference)
Mode
Idle
ACL
Max.
0.465
8.940
Avg.
0.183
0.482
Min
0.054
0.057
Unit
mA
mA
SOC
eSOC
16.0
14.6
13.0
12.7
12.3
12.4
mA
mA
BSM-700 Specification
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2.7 Application block diagram
BSM-700 Specification
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3 RF Measurement Environment System
3.1 Internal Flash
PSR and File System for MP build: V0.2
3.2 System Area
Index
0x01EA
0x01F9
0x0246
Name
UART_BITRATE
HOST_INTERFACE
CLOCK_REQUEST_ENABLE
0x212C
PATCH50
0x212D
PATCH51
0x212E
PATCH52
0x212F
PATCH53
0x2130
PATCH54
0x2131
PATCH55
0x2134
PATCH58
0x2135
PATCH59
0x212F
PATCH60
BSM-700 Specification
Description
Baud Rate
Host I/F Configuration
Value
delete or "0"
0001 (UART link running BCSP)
delete
0000 C47D 5714 0018 FF2B FF0E D800 7918
009E 0018 FF2B FF0E C500 8018 00E2 7080
0002 5B79 0014 E700 9525 011B 0626 089A
0AF4 0218 FF2B FF0E 5B00 4318 009E 0014
011B 0826 0218 FF2B FF0E 5C00 8218 00E2
A63A
0002 D0A7 0316 0318 FF2B FF0E 2300 0618
009E E199 14F4 E119 0812 8000 00C0 10F0
061B 0212 0100 FFC0 0780 0AF0 0316 0010
0318 FF2B FF0E 3800 1318 009E F70F 0218
FF2B FF0E D100 AC18 00E2 CF53
0003 C916 0114 0027 0517 2B00 A484 06F0
2B00 A914 0527 0114 02E0 0014 0127 0014
0227 0323 E315 0318 FF2B FF0E C900 1D18
00E2 CB5F
0002 CA7A 0018 FF2B FF0E 8400 CB18 009E
EA00 5F11 0100 0080 0524 0100 00B0 EA00
5F21 0218 FF2B FF0E CA00 7D18 00E2 2513
0003 FE75 EB00 C114 0218 FF2B FF0E 6700
E718 009E EA00 6714 0218 FF2B FF0E 6700
E718 009E 0318 FF2B FF0E FE00 7A18 00E2
0C6F
0001 1A6F 051B 0116 0284 03F0 0310 0122
0110 071B 0100 8922 0118 FF2B FF0E 1A00
7318 00E2 D58C
0001 14D1 FF40 0627 0523 091B 0116 0284
07F0 0310 0122 5F16 4800 00B4 5F26 0118
FF2B FF0E 1500 D418 00E2 F7FE
0003 F9A5 0318 FF2B FF0E F900 F018 009E
E199 04F4 4000 FF14 F90F 0318 FF2B FF0E
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0x21FB
PATCH107
0x2200
PATCH112
F900 7318 00E2 AEC3
F000 3215 0800 00B4 F000 3225 F000 3215
F800 FFC4 F000 3225 F000 3215 0800 00B4
F000 3225 00E2 49E0
F100 CF15 01B4 F100 CF25 00E2 9DD1
3.3 RF Area
Index
0x0017
Name
LC_MAX_TX_POWER
0x003C
0x216D
0x2175
0x241A
RX_MR_SAMP_CONFIG
BT_MIXER_CTRIM_CHAN0_MAX
BT_TX_MIXER_CTRIM_OFFSET
BT_POWER_TABLE_V0
0x03DA
TEMPERATURE_VS_DELTA_INTERNAL
_PA
TEMPERATURE_VS_DELTA_INTERNAL
_PA_MR
0x21E1
Description
Maximum Tx
power
Value
0000 (0dBm)
0426
0007
1111 0000 0000 0000 fff0
2217 0050 2c48 0050 ec00
2417 0040 2e48 0040 f000
2317 0030 2d48 0030 f400
2317 0020 2d48 0020 f800
2417 0010 2d48 0010 fc00
2717 0000 3049 0000 0000
ffec 0001 0019 0000 004b 000a
ffec ffff 0019 0000 004b 0007
3.4 User Area
Index
0x267
Name
MOD_MANUF9
BSM-700 Specification
Description
Serial Number and
Hardware Version
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Value
YYMMDDLLSSSSHH
YY : Year (0C => 2012)
MM : Month (range : 01 - 0C)
DD : Date (range : 01 - 1F)
LL : Line Number (range : 01 - FF)
SSSS : Serial Number (range : 0001 - FFFF)
HH : Hardware (04 : MP)
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4 Interface Specifications
4.1 UART Interface
Parameter
Baud rate
Minimum
Maximum
Parity
Number of stop bits
Bits per byte
Possible Values
1200 baud (≤2%Error)
9600 baud (≤1%Error)
4M baud (≤1%Error)
None, Odd or Even
1 or 2
4.2 USB Interface
BSM-700 has a full-speed (12Mbps) USB interface for communicating with other compatible digital devices.
The USB interface on BSM-700 acts as a USB peripheral, responding to requests from a master host
controller.BSM-700 supports the Universal Serial Bus Specification, Revision v2.0 (USB v2.0 Specification)
4.3 Digital Audio Interface
The audio PCM interface on the BSM-700 supports:
 On-chip routing to Kalimba DSP
 Continuous transmission and reception of PCM encoded audio data over Bluetooth.
 Processor overhead reduction through hardware support for continual transmission and reception of PCM
data.
 A bidirectional digital audio interface that routes directly into the baseband layer of the firmware.
 Hardware on BSM-700 for sending data to and from a SCO connection.
 PCM interface master, generating PCM_SYNC and PCM_CLK.
 PCM interface slave, accepting externally generated PCM_SYNC and PCM_CLK.
 Various clock formats including:

 Long Frame Sync

 Short Frame Sync

 GCI timing environments
 13-bit or 16-bit linear, 8-bit μ-law or A-law companded sample formats.
 Receives and transmits on any selection of 3 of the first 4 slots following PCM_SYNC.
BSM-700 Specification
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5 Notes on operation
5.1 Power-on Sequence
We recommend that the power supplies are all powered at the same time.
5.2 IO State at Reset and Recommended Termination Handling
The RESET# pin is an active low reset. Assert the reset signal for a period >5ms to ensure a full reset. The RESET
# pin is pulled down internally until the power on, then the pull switches to a strong pull up.
Pin Name / Group
USB_DP
USB_DN
UART_RX
UART_TX
SPI_CS#
SPI_CLK
SPI_MISO
SPI_MOSI
I2S_OUT
I2S_SYNC
I2S_BCLK
RST#
PIO[15:0]
FLASH_IO[3:0]
FLASH_CS#
FLASH_CLK
BSM-700 Specification
I/O Type
Digital bidirectional
Digital bidirectional
Digital bidirectional with PU
Digital bidirectional with PU
Digital input with PU
Digital input with PD
Digital tristate output with PD
Digital input with PD
Digital bidirectional with PD
Digital bidirectional with PD
Digital bidirectional with PD
Digital input with PU
Digital bidirectional with PD
Digital bidirectional with PD
Digital bidirectional with PU
Digital bidirectional with PD
Full Chip Reset
N/A
N/A
Strong PU
Weak PU
Strong PU
Weak PD
Weak PU
Weak PD
Weak PD
Weak PD
Weak PD
Strong PU
Weak PD
Strong PD
Strong PU
Strong PD
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6 Schematic
6.1 Main Block:
BSM-700 Specification
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6.2 RF
7 Placement
No.
BSM-700 Specification
Function
Bluetooth Main IC
X’tal 26MHz
Band Pass Filter
Ref
U3
Y1
U1
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8 Layout
BSM-700 Specification
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BSM-700 Specification
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BSM-700 Specification
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BSM-700 Specification
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BSM-700 Specification
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BSM-700 Specification
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9 Reflow Condition
9.1 Reflow temperature profile
10 Marking and Packing Model
10.1 Marking
BSM-700 Specification
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10.2 Packing Model
BSM-700 Specification
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11 Criteria for Reliability Test
No.
Item
Condition
High Temperature High Humidity
Storage Test
Low Temperature Storage Test
Unit
1. Temperature/Humidity: 75℃±2℃
2. Test Time: 24Hrs
95%±3RH
10pcs
1. Temperature: -40℃±2℃
2. Test Time: 24Hrs
10pcs
3.1 Thermal Shock Test
1. High Temperature: 85℃ 15mins
2. Low Temperature: -40℃ 15mins
3. Temperature Rate: 25℃/Min
4. Duration: 200cycles
4pcs
3.1-1 X-Section Analysis
1. Environment: 21℃ 50%RH
2. Test location: ANT1, U2, XTAL1, U5
2pcs
Temperature Profile Test
1. Temperature: 70℃& 25℃
2. Test Time: 6Hrs/Temp
3. Ping IP test
4. Test location: U2, U5, XTAL1,
2pcs
Operational With Temperature Cycle Test
1. High Temperature/Humidity: 70℃ 90%RH 1H
2. Low Temperature: 0℃ 1H
3. Raise Time: 2℃/min Descend Time: 1℃/min
4. Duration: 10Cycles
2pcs
Power Cycling Test
1. Test Temperature/Humidity: 70℃ 90%RH 24Hrs &
25℃ 50%RH 24Hrs
2. Fixture: Power on 29mins & Power off 1min
3. Duration: 0.5H/Cycle ,Total 48Cycles
2pcs
Vibration Test
1. Vibration Wave: sine
2. Vibration Frequency: 10-300-10HZ 1G
3. Vibration Axis: Z Axis
4. Test time: 1Hr
2pcs
BSM-700 Specification
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12 FCC Compliance and Advisory Statement
12.1 Class B: (Section 15.105)
FEDERAL COMMUNICATIONS COMMISSION INTERFERENCE STATEMENT
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.
CAUTION: (Section 15.21)
Any changes or modifications not expressly approved by the grantee of this device
could void the user's authority to operate the equipment.
12.2 Labeling requirements
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.
12.3 RF exposure warning
This equipment must be installed and operated in accordance with provided
instructions and the antenna(s) 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 operating 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.
BSM-700 Specification
Page 30/31
LTC Network Access Confidential
2014/03/31
12.4 End Product Labeling
This transmitter module is authorized only for use in device where the antenna may
be installed such that 20cm may be maintained between the antenna and users. The
final end product must be labeled in a visible area with the following: "Contains FCC
ID: PPQ-BSM700”
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.
1) This device is intended for OEM integrators only.
2) Please see the full Grant of Equipment document for other restrictions.
This radio transmitter FCC ID: PPQ-BSM700 has been approved by FCC to operate with the
antenna types listed below with the maximum permissible gain and required antenna
impedance for each antenna type indicated. Antenna types not included in this list, having a
gain greater than the maximum gain indicated for that type, are strictly prohibited for use
with this device.
BSM-700 Specification
Page 31/31
LTC Network Access Confidential
2014/03/31

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