Sercomm TPM10 Cat-M1 Module User Manual

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Date Submitted	2018-01-23 00:00:00
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Document Title	User Manual

TPM10
Sercomm TPM10 is used to connect to LTE Cat-M1
network, complies with 3GPP Rel-13 LTE Cat-M1
Cat-M1 Module
Operating Voltage
 3.1~4.5V
UE specification
TPM10 provides the interconnections between the
Cat-M1 networks and terminals. It receives signals
sent from the networks, processes, and then sends
commands or data to the terminals; and transfers
Power Consumption
data, commands to networks when receives data,
 Max through UL+DL (23dBm): 222mA@4.2V
commands from the terminals.
 PSM: 1.00uA@4.2A
Key Features
 Multiple bands support
 3GPP Rel.13 LTE Cat-M1 air interfaces and
protocols compliant
 Maximum RF output power of 23 dBm
Dimension
 LGA 108 pads. 21.35x20.25x1.67mm
Applications
 LTE eDRX and PSM support. Ultra low power
 Smart Metering, smart grid
consumption for longer battery lifetime
 Traffic Management and Monitoring
 Integrated temperature sensor
 Asset Tracking
 Environmental Monitoring
Interfaces
 UART port, Communication port and debug port.
One reserved
Ordering
TPM10
Cat-M1 module
 USIM port
 Antenna port
 GPIO
 JTAG
FCC ID: P27-TPM10
www.sercomm.com
TPM10
Cat-M1 Module
Federal Communication Commission
Interference Statement

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
This device complies with FCC Rules. Operation is
subject to the following two conditions: (1) This
receiver is connected.

device may not cause harmful interference, and (2)
Consult the dealer or an experienced
radio/TV technician for help.
this device must accept any interference received,
including interference that may cause undesired
FCC Caution:
operation.
Any changes or modifications not expressly
approved by the party responsible for compliance
This equipment has been tested and found to
could void the user's authority to operate this
comply with the limits for a Class B digital device,
equipment.
pursuant to Part 15 of the FCC Rules. These limits
This transmitter must not be co-located or
are designed to provide reasonable protection
operating in conjunction with any other antenna
against harmful interference in a residential
or transmitter.
installation. This equipment generates, uses and
can radiate radio frequency energy and, if not
Radiation Exposure Statement:
installed and used in accordance with the
This equipment complies with FCC radiation
instructions, may cause harmful interference to
exposure limits set forth for an uncontrolled
radio communications.
However, there is no
environment. This equipment should be installed
guarantee that interference will not occur in a
and operated with minimum distance 20cm
particular installation.
between the radiator & your body.
If this equipment does
cause harmful interference to radio or television
reception, which can be determined by turning the
This device is intended only for OEM integrators
equipment off and on, the user is encouraged to
under the following conditions:
try to correct the interference by one of the
1)
following measures:
cm is maintained between the antenna and users,
The antenna must be installed such that 20
and
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TPM10
2)
The transmitter module may not be
co-located with any other transmitter or antenna.
Cat-M1 Module
Manual Information To the End User
The OEM integrator has to be aware not to
provide information to the end user regarding how
As long as 2 conditions above are met, further
to install or remove this RF module in the user’s
transmitter test will not be required. However, the
manual of the end product which integrates this
OEM integrator is still responsible for testing their
module. The end user manual shall include all
end-product for any additional compliance
required regulatory information/warning as show
requirements required with this module installed
in this manual.
RF typical circuit
IMPORTANT NOTE: In the event that these
The RF inter-connect called P1 is for example
conditions can not be met (for example certain
purposes only. Depending on the antenna,
laptop configurations or co-location with another
interfacing system will dictate the RF inter-connect.
transmitter), then the FCC authorization is no
Below picture is showing RF typical circuit.
longer considered valid and the FCC ID can not be
used on the final product. In these circumstances,
the OEM integrator will be responsible for
re-evaluating the end product (including the
transmitter) and obtaining a separate FCC
authorization.
End Product Labeling
LTE-ANT0 is the primary(main) antenna pin and
This transmitter module is authorized only for use
carries TX and RX signals. Connect 50 Ohm
in device where the antenna may be installed such
transmission lines from this pins to the 50 Ohm
that 20 cm may be maintained between the
Primary Antenna/Antenna connetors.
antenna and users. The final end product must be
The picture RF typical circuit shows, included in
labeled in a visible area with the following:
the connection between ANT and the antenna
“Contains FCC ID: P27-TPM10”. The grantee's FCC
connectors, T-type network for matching.
ID can be used only when all FCC compliance
requirements are met.
www.sercomm.com
TPM10
Cat-M1 Module
TPM10 DATASHEET
Specifications are subject to change without notice and should not be
construed as a commitment by Sercomm Corporation
Copyright 2017 by Sercomm Corporation  All rights reserved.
Ver 1.0
www.sercomm.com
DOC-6696710
TPM10
Revision History
Rev
Date
V1.0
04/11/2017
Cat-M1 Module
Description
Initial Release V1.0
www.sercomm.com
DOC-6696710
TPM10
Cat-M1 Module
Table of contents
1.
Functional Overview ........................................................................................................................ 5
1.1.
Block Circuit Diagram......................................................................................................... 5
1.2.
Main Module Components ................................................................................................ 6
1.3.
LTE Low Power Modes....................................................................................................... 7
2. Electrical Characteristics .................................................................................................................. 8
2.1.
Power-up Sequence........................................................................................................... 8
2.2.
Reset Cycle......................................................................................................................... 8
2.3.
Power supply ..................................................................................................................... 8
2.4.
Performance ...................................................................................................................... 9
3. Pin out and Definitions .................................................................................................................. 10
3.1.
I/O Parameters Definition ............................................................................................... 10
3.2.
Module Pin Definition...................................................................................................... 10
3.3.
DC Characteristics ............................................................................................................ 17
3.4.
UART Port ........................................................................................................................ 19
3.5.
SIM Port ........................................................................................................................... 20
3.6.
Antenna Port ................................................................................................................... 20
4. ESD ................................................................................................................................................. 22
5. EMC ................................................................................................................................................ 23
6. Package Description....................................................................................................................... 24
7. Recommend Reflow Profile ........................................................................................................... 26
8. Package and Storage Condition ..................................................................................................... 27
9. Product Information ...................................................................................................................... 28
10. Ordering Information .................................................................................................................... 29
www.sercomm.com
DOC-6696710
TPM10
Cat-M1 Module
1. Functional Overview
TPM10 module provides the interconnection between Cat-M1 networks and terminals.
 Interconnection
with Cat-M1
−
TPM10 module receives and processes signals sent from Cat-M1 networks,
and then sends commands or data to terminals for performing the
operation and maintenance (O&M).
−
The module receives data and commands from terminals, transferring
those data and commands to Cat-M1 networks, and then delivers them to
application servers (ASs).
 Interconnection
with terminals
−
TPM10 module reads and uploads terminal data to the Cat-M1 networks.
−
The module receives commands from the Cat-M1 networks and performs
O&M for terminals.
1.1. Block Circuit Diagram
TPM10 module is based on the SQN3330 Cat-M1 baseband and developed for 3GPP E-UTRA
and Wireless LTE Cat-M1 UE specification. The image below shows the module block
diagram:
www.sercomm.com
DOC-6696710
TPM10
Cat-M1 Module
1.2. Main Module Components
The TPM10 includes the following components.
A. SQN3330
This module includes SQN3330 Cat-1 baseband, a complete dual band RF front end, memory
and required circuitry to meet 3GPP E-UTRA (Long Term Evolution - LTE, Release 13 set of
specifications) and Wireless LTE Cat-M1 UE specifications.
SQN3330 is a single-chip LTE Cat M1 solution, which is designed specifically for narrowband
IoT applications, including sensors, wearables, and other low data, low power M2M and IoT
devices.
B. RF
The RF matching circuit.
C. Power system
The main power supply is “VBAT1“ and its range is 3.1~4.5V while the “VSIM” power supply
(3.0V) is for external SIM circuit.
D. Clock in system
TPM10 is using 32KHz clock in the module system.
www.sercomm.com
DOC-6696710
TPM10
Cat-M1 Module
1.3. LTE Low Power Modes
This module will automatically enter in low-power mode. It can be woken from low power
mode by the following external sources:




SIM_DETECT input signal to cope with SIM card insertion into a SIM card connector with
built-in hardware detection. The default configuration to wake-up the module is a
low-to-high transition.
The RTS0 input signal whenever data traffic is initiated by the host connected to the
module UART0 with hardware flow control; The default configuration to wake-up the
module is a high-to-low transition.
Two dedicated input signal WAKE0 and WAKE1; The default configuration to wake-up the
module is on a high-to-low transition. This can be modified by software. As example, these
signals can be used to detect an alarm from an external IC such as a sensor. Software can
disable the wake-up functionality on these signals.
A subset of GPIO input signals: GPIO2, GPIO3, GPIO25, GPIO27, GPIO42; they are not
configured by default as wake-up source but software can configure them for future use.
www.sercomm.com
DOC-6696710
TPM10
Cat-M1 Module
2. Electrical Characteristics
2.1. Power-up Sequence
Cold Start
Warm Start
2.2. Reset Cycle
2.3. Power supply
The main power supply is “VBAT1“ and its range is 3.1~4.5V while the “VSIM” power
supply (3.0V) is for external SIM circuit.
Pad Name
GND
GND
Pad #
Comment
T1, T2, T3, T4, T5, T6, T7, T8, T9, T10, T11,
T12, T13, T14, T15, T16, T17, T18, T19, T20,
T21, T22, T23, T24, T25, T26, T27, T28, T29,
T30
T1 to T30 pads are
used as both GND and
thermal drops
1, 20, 22, 24, 26, 28, 30, 31, 32, 33, 34, 42,
43, 45, 46, 53, 55, 62, 63, 64, 65, 66, 68, 69,
70, 71, 72, 73, 74, 86, 87
All GND pads shall be
connected to the same
copper.
www.sercomm.com
DOC-6696710
TPM10
Pad Name
VBAT1
Cat-M1 Module
Pad #
Comment
Power supply for
Baseband, voltage level
3.1V to 4.5V
107, 108
2.4. Performance
 The Max output power of TPM10 is 23dBm +2/-2.7dBm
 The typical sensitivity level of TPM10 is -103 dBm
www.sercomm.com
DOC-6696710
TPM10
Cat-M1 Module
3. Pin out and Definitions
3.1. I/O Parameters Definition
Type
Description
DI
Digital input
DO
Digital output
I/O
Bidirectional input/output
AI
Analog input
AO
Analog output
PO
Power output
PI
Power input
OD
Open drain
3.2. Module Pin Definition
Pad Name
GND
Pad No.
I/O Type
1, 20, 22, 24, 26, 28, 30, 31, 32, 33,
34, 42, 43, 45, 46, 53, 55, 62, 63, 64,
65, 66, 68, 69, 70, 71, 72, 73, 74, 86,
87
GPIO3/STATUS 2
_LED
Description
N/A
All GND pads shall be
connected to the same
copper.
IN
GPIO or status LED
(STATUS_LED, OUT) in
option with 3 modes:
- Activity based on LTE
connectivity status
(typically: ON when
attached to LTE
network)
- Periodic pulse (Sign
of life signal)
- LED switch off
www.sercomm.com
DOC-6696710
10
TPM10
Cat-M1 Module
1V8
(power)
1.8V reference voltage
for IOs
GNSS_VINB
N/A
Reserved
RESERVED/FFF
_FFH
I/O
Reserved pad
GPIO2/POWER
_MON
I/O
GPIO or Power
monitor
(POWER_MON, OUT)
in option
GPIO19/CLK0
I/O
GPIO, USART0/CLK in
option
GPIO27/CTS2
I/O
GPIO (I/O),
USART2/CTS (OUT) in
option
3V0
9, 11
(power)
3.0V power supply
GPIO28/RTS2
10
I/O
GPIO (I/O),
USART2/RTS (IN) in
option
SIM_RESETN
12
SIM card interface:
reset output pin for
the SIM card
DNC
13, 15
Do not
connect
Do not connect
SIM_CLK
14
SIM card interface:
clock output pin for
the SIM card
SIM_DETECT
16
I/O
SIM card presence
indication (input)
www.sercomm.com
DOC-6696710
11
TPM10
Cat-M1 Module
SIM_IO
17
I/O
SIM card bidirectional
data input/output
SIM_VCC
18
(power)
SIM card supply
voltage
GNSS_TXD3
19
N/A
Reserved
GNSS_RXD3
21
N/A
Reserved
GNSS_BOOT0
23
N/A
Reserved
GNSS_RSTN
25
N/A
Reserved
GNSS_STDBY_
OUT
27
N/A
Reserved
GNSS_WAKEU
29
N/A
Reserved
GNSS_STDBYN
35
N/A
Reserved
GNSS_GPIO28
36
N/A
Reserved
GNSS_GPIO1_
PPSOUT
37
N/A
Reserved
GNSS_GPIO0/
BLANKING
38
N/A
Reserved
RFDATA12
39
I/O
RF Control, reserved
for future use
RFDATA16
40
I/O
RF Control, reserved
for future use
RFDATA17
41
I/O
RF Control, reserved
for future use
GNSS_ANT1
44
N/A
Reserved
www.sercomm.com
DOC-6696710
12
TPM10
Cat-M1 Module
RESETN
47
Module HW reset
signal
JTAG_TDO
48
Used for JTAG
interface
JTAG_TRSTN
49
Used for JTAG
interface
JTAG_TMS
50
Used for JTAG
interface
JTAG_TDI
51
Used for JTAG
interface
JTAG_TCK
52
Used for JTAG
interface
LTE_ANT
54
Analog
LTE antenna
RXD2
56
UART2/RXD (OUT)
ADC
57
Analog
Analog Digital
Converter
TXD2
58
UART2/TXD (IN)
SPI_SDI
59
I/O
SPI interface, reserved
for future use
SPI_CSN
60
I/O
SPI interface, reserved
for future use
SPI_CLK
61
I/O
SPI interface, reserved
for future use
SPI_SDO
67
I/O
SPI interface, reserved
for future use
RTS0
75
UART0/RTS (IN)
www.sercomm.com
DOC-6696710
13
TPM10
Cat-M1 Module
CTS0
76
UART0/CTS (OUT)
TXD0
77
UART0/TXD (IN)
GPIO14/TXD1
78
I/O
GPIO (I/O),
UART1/TXD (IN) in
option
RXD0
79
UART0/RXD (OUT)
GPIO15/RXD1
80
I/O
GPIO (I/O),
UART1/RXD (OUT) in
option
GPIO17/CTS1
81
I/O
GPIO (I/O), UART1/CTS
(OUT) in option
GPIO38/CLK1
82
I/O
GPIO, UART1/CLK in
option
GPIO16/RTS1
83
I/O
GPIO (I/O), UART1/RTS
(IN) in option
GPIO41/DTR0
84
I/O
GPIO (I/O),
UART0/DTR (IN) in
option
GPIO39/DSR0
85
I/O
GPIO (I/O),
UART0/DSR (OUT) in
option
GPIO24/DCD0
88
I/O
GPIO (I/O),
UART0/DCD (OUT) in
option
GPIO25/RING0
89
I/O
GPIO (I/O),
UART0/RING (OUT) in
option
GPIO40/EMGC
Y_SHDN
90
I/O
GPIO, emergency
power shutdown
signal (EMGCY_SHDN,
IN) in option
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DOC-6696710
14
TPM10
Cat-M1 Module
GPIO26/CLK2
91
I/O
GPIO, USART2/CLK in
option
I2C_SDA
92
I/O
I2C/SDA interface.
GPIO in option
GPIO23
93
I/O
GPIO
I2C_SCL
94
I/O
I2C/SCL interface.
GPIO in option
GPIO21
95
I/O
GPIO
WAKE1
96
I/O
Wake input (WAKE1).
Module is wake-up on
WAKE1 high to low
signal transition
VCC1_PA
97
I (power) Power supply for LTE
RF front end
VCC2_PA
98, 99
I (power) Power supply for LTE
RF front end
GNSS_VCC1
100
N/A
Reserved
GNSS_VCC2
101
N/A
Reserved
GNSS_VCC3
102
N/A
Reserved
GPIO29/32KHZ 103
_CLK_OUT
32KHz (OUT), GPIO
(I/O) in option
WAKE0
Wake input (WAKE0).
Module is wake-up on
WAKE0 high to low
signal transition
I/O
GPIO, SAR detection
signal (SAR_DETECT,
IN, active low) in
option
104
GPIO42/SAR_D 105
ETECT
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DOC-6696710
15
TPM10
Cat-M1 Module
POWER_EN
106
I (power) See IO Characteristics
for VDD_PWR_EN
VBAT1
107, 108
GND
T1, T2, T3, T4, T5, T6, T7, T8, T9, T10, N/A
T11, T12, T13, T14, T15, T16, T17,
T18, T19, T20, T21, T22, T23, T24,
T25, T26, T27, T28, T29, T30
www.sercomm.com
Power supply for
Baseband, voltage
level 3.1V to 4.5V
T1 to T30 pads are
used as both GND and
thermal drops
DOC-6696710
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TPM10
Cat-M1 Module
3.3. DC Characteristics
The following table displays the DC characteristics for digital IOs and voltage 1.8 V:
www.sercomm.com
DOC-6696710
17
TPM10
Cat-M1 Module
www.sercomm.com
DOC-6696710
18
TPM10
Cat-M1 Module
3.4. UART Port
The following image represents the typical implementation for the hardware flow control
for UART0, UART1 and UART2. TDX and RDX signals are mandatory. RTS and CTS are
strongly recommended. The other signals are optional.
UART pin definition:
Pad Name
Pad No.
I/O Type
Description
RXD2
56
UART2/RXD (OUT)
TXD2
58
UART2/TXD (IN)
RTS0
75
UART0/RTS (IN)
CTS0
76
UART0/CTS (OUT).
TXD0
77
UART0/TXD (IN)
RXD0
79
UART0/RXD (OUT)
www.sercomm.com
DOC-6696710
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TPM10
Cat-M1 Module
3.5. SIM Port
Pin definition:
Pad Name
Pad No.
I/O Type
Description
SIM_RESETN
12
SIM card interface: reset output
pin for the SIM card
SIM_CLK
14
SIM card interface: clock output
pin for the SIM card
SIM_DETECT
16
I/O
SIM card presence indication
(input)
SIM_IO
17
I/O
SIM card bidirectional data
input/output
SIM_VCC
18
SIM card supply voltage
3.6. Antenna Port
TPM10 LTE RF front-end power supplies diagram:
Pin definition:
Pad Name
LTE_ANT
Pad No.
54
I/O Type
Analog
Description
LTE antenna
www.sercomm.com
DOC-6696710
20
TPM10
Cat-M1 Module
www.sercomm.com
DOC-6696710
21
TPM10
Cat-M1 Module
4. ESD
The module has no electro-static discharge (ESD) protection measures, and its sensitive
pins need external ESD protection. Appropriate ESD measures need to be added during
the manufacturing/transporting/operation stages.
The table below shows the ESD requirements for the module.
Pin
Contact Discharge
Air Discharge
Unit
VBAT
±5
±10
KV
ANT
±4
±8
KV
Other ports
±0.5
±1
KV
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DOC-6696710
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TPM10
Cat-M1 Module
5. EMC
The signal integrity and power integrity issues caused by electromagnetic compatibility
(EMC) need to be considered when you use the module to design. Below are some
suggestions:





The coupling of the module and other digital chips must be deployed remotely as far as
possible, in order to avoid mutual interference.
The power supply (CSS), clock, high-speed digital signals, EMI components, and RF
simulation parts must be deployed remotely as far as possible.
The CSS, clock, high-speed digital signals, EMI components, and antennas must be
coupled remotely as far as possible in space.
During cabling routing, RF reference ground, digital and analog areas should be
separated, and all cables are routed in compliance with specified requirements to
avoid mutual coupling between lines.
The decoupling capacitor is placed near pins.
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DOC-6696710
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TPM10
Cat-M1 Module
6. Package Description
Module dimensions from the bottom:
Mark Dimension and tolerance (mm)
Mark
21.35 ± 0.1
20.25 ± 0.1
A1
12 ± 1.0
A2
4.125 ± 0.5
A3
10.8 ± 1.0
A4
4.725 ± 0.5
A5
0.6 ± 0.05
A6
1.2 ± 0.1
Dimension and tolerance
www.sercomm.com
DOC-6696710
24
TPM10
A7
B1
B2
B3
B4
B5
B6
B7
C1
C2
C3
C4
D1
D2
D3
D4
D5
D6
Cat-M1 Module
0.6 ± 0.05
0.9 ± 0.1
0.325 ± 0.05
0.6 ± 0.05
19.2 ± 0.2
18 ± 0.2
1.075 ± 0.1
1.675 ± 0.15
6.125 ± 0.5
6.8 ± 0.5
1.2 ± 0.01
0.5 ± 0.05
0.5 ± 0.05
0.9 ± 0.1
7 ± 0.5
6.725 ± 0.5
18.9 ± 0.2
15.9 ± 0.2
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DOC-6696710
25
TPM10
Cat-M1 Module
7. Recommend Reflow Profile
www.sercomm.com
DOC-6696710
26
TPM10
Cat-M1 Module
8. Package and Storage Condition
Operation and Storage Environment:
Item
Minimum
Value
Maximum
Value
Unit
Operating temperature
–40
85
˚C
Storage temperature
–40
85
˚C
Operating Humidity
10
85
Storage Humidity
85
www.sercomm.com
DOC-6696710
27
TPM10
Cat-M1 Module
9. Product Information
Model
It displays the model name of the device.
SN
The serial number of the device.
IMEI
The IMEI number is used by a GSM network to identify the device.
D/C
It shows the date code that is used to identify when the device is being manufactured.
www.sercomm.com
DOC-6696710
28
TPM10
Cat-M1 Module
10. Ordering Information
Part Number
TPM10
Description
Cat-M1 Module
Package Type
Reel
www.sercomm.com
Operation Temp.
-40~85C
DOC-6696710
29

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