Neoway Technology 1705 LTE Module User Manual

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N720 Hardware User Guide
N720 Hardware User
Guide
Version 1.3
Copyright © Neoway Technology Co., Ltd
N720 Hardware User Guide
Copyright © 2017 Neoway Technology Co., Ltd. All rights reserved.
is the trademark of Neoway Technology Co., Ltd.
All other trademarks and trade names mentioned in this document are the property of their
respective holders.
Remarks
This document is intended for system engineers (SEs), development engineers, and test
engineers.
The information in this document is subject to change without notice due to product version
update or other reasons.
Every effort has been made in preparation of this document to ensure accuracy of the
contents, but all statements, information, and recommendations in this document do not
constitute a warranty of any kind, express or implied.
Neoway provides customers complete technical support. If you have any question, please
contact your account manager or email to
Sales@neoway.com
Support@neoway.com
Website: http://www.neoway.com
Copyright © Neoway Technology Co., Ltd
N720 Hardware User Guide
Revision Record
Version
Changes
V1.0

Initial draft
2016-08
V1.1

Added bands information of different areas
2016-09
V1.2

Modified pin the description
2016-10
V1.3

Modify the UIM card part and delete the UIM2 part
2016-12

Improve band information

Modify part of the pin definition (the original pin78 RING,
pin80 LIGHT are modified to pin13 RING, pin83 LIGHT.
Pin13 and pin83 are NC)

Modify part of description
Copyright © Neoway Technology Co., Ltd
Date
ii
N720 Hardware User Guide
Contents
1 Introduction to N720 ........................................................................................................ 1
1.1 Overview ........................................................................................................................................... 1
1.2 Block Diagram .................................................................................................................................. 2
1.3 Features ............................................................................................................................................ 2
2 Application Interfaces ..................................................................................................... 5
2.1 Specifications and Pin Definition ................................................................................................... 5
2.2 Pin Description ................................................................................................................................. 6
2.3 Power Control Interfaces .............................................................................................................. 13
2.3.1 VBAT ...................................................................................................................................... 13
2.3.2 VDDIO_1P8 ........................................................................................................................... 17
2.3.3 ON/OFF ................................................................................................................................. 17
2.3.4 RESET ................................................................................................................................... 19
2.4 USB Interface ................................................................................................................................. 21
2.5 UIM Card Interface ........................................................................................................................ 22
2.6 GPIO ................................................................................................................................................ 24
1.1.1 UART ...................................................................................................................................... 24
2.6.2 ADC ........................................................................................................................................ 26
2.6.3 NET_LIGHT........................................................................................................................... 26
2.6.4 DTR ........................................................................................................................................ 27
2.6.5 RING Signal Indicator .......................................................................................................... 27
2.7 Commissioning Interfaces ............................................................................................................ 28
2.7.1 FORCE_USB_BOOT ........................................................................................................... 28
3 RF Interface ...................................................................................................................... 29
3.1 2G/3G/4G RF Design and PCB Layout ...................................................................................... 29
3.2 GPS RF Design and PCB Layout ............................................................................................... 31
3.2.1 GPS Impedance ................................................................................................................... 31
3.2.2 Active GPS Antenna Design ............................................................................................... 31
4 Electric Feature and Reliability................................................................................... 33
4.1 Electric Feature .............................................................................................................................. 33
4.2 Temperature.................................................................................................................................... 33
4.3 ESD Protection............................................................................................................................... 34
5 RF Feature ........................................................................................................................ 35
5.1 Work Band ...................................................................................................................................... 35
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N720 Hardware User Guide
5.2 TX Power and RX Sensitivity ....................................................................................................... 36
6 Mechanical Feature ........................................................................................................ 37
6.1 Dimensions ..................................................................................................................................... 37
6.2 PCB Foot Print ............................................................................................................................... 38
7 Mounting and Packaging ............................................................................................. 39
7.1 Mounting the Module onto the Application Board ..................................................................... 39
7.2 Package .......................................................................................................................................... 39
8 SMT TemperatureCurve ................................................................................................ 40
9 Abbreviations .................................................................................................................. 41
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N720 Hardware User Guide
Table of Figures
Figure 1-1 N720 block diagram ........................................................................................................... 2
Figure 2-1 Top view of N720 ................................................................................................................ 5
Figure 2-2 Current peaks and voltage drops ................................................................................... 14
Figure 2-3 Capacitors used for the power supply ........................................................................... 14
Figure 2-4 Reference design of power supply control .................................................................... 15
Figure 2-5 Reference design of power supply controlled by p-MOSFET .................................... 15
Figure 2-6 Reference designs of separated power supply ............................................................ 17
Figure 2-7 Push switch controlling .................................................................................................... 18
Figure 2-8 MCU controlling ................................................................................................................ 18
Figure 2-9 N720 power-on/off sequence .......................................................................................... 18
Figure 2-10 N720 power-off sequence ............................................................................................. 19
Figure 2-11 Reset controlled by button ............................................................................................. 20
Figure 2-12 Reset circuit with triode separating .............................................................................. 20
Figure 2-13 N720 reset sequence ..................................................................................................... 20
Figure 2-14 USB circuit ....................................................................................................................... 21
Figure 2-15 Reference design of SIM card interface ...................................................................... 22
Figure 2-16 Encapsulation .................................................................................................................. 23
Figure 2-17 Reference design of the UART interface .................................................................... 25
Figure 2-18 Recommended level shifting circuit ............................................................................. 25
Figure 2-19 LED indicator driven by transistor ................................................................................ 26
Figure 2-20 RING indicator for incoming call ................................................................................... 28
Figure 2-21 RING indicator for SMS ................................................................................................. 28
Figure 2-22 Reference design of the fast boot interface ................................................................ 28
Figure 3-1 Reference of antenna matching design......................................................................... 29
Figure 3-2 Recommended RF PCB design ..................................................................................... 30
Figure 3-3 Encapsulation specifications of Murata RF connector ................................................ 30
Figure 3-4 RF connections ................................................................................................................. 30
Figure 3-5 GPS RF structure ............................................................................................................. 31
Figure 3-6 Power supply reference for active antenna .................................................................. 32
Figure 6-1 Dimensions of N720 ......................................................................................................... 37
Figure 6-2 N720PCBFoot Print(Top View) ....................................................................................... 38
Copyright © Neoway Technology Co., Ltd
N720 Hardware User Guide
Figure 8-1 Temperature curve ............................................................................................................ 40
Copyright © Neoway Technology Co., Ltd
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N720 Hardware User Guide
Table of Tables
Table 1-1 N720 baseband and wireless features ............................................................................. 2
Table 2-1 N720 dimensions ................................................................................................................. 5
Table 2-2 N720 pin description ............................................................................................................ 6
Table 2-3 GPIO .................................................................................................................................... 24
Table 4-1 N720 Electric Feature ........................................................................................................ 33
Table 4-2 Temperature Feature ......................................................................................................... 33
Table 4-3 N720 ESD feature .............................................................................................................. 34
Table 5-1 N720 work band ................................................................................................................. 35
Table 5-2 N720 RF power and RX sensitivity .................................................................................. 36
Copyright © Neoway Technology Co., Ltd
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N720 Hardware User Guide
1 Introduction to N720
1.1 Overview
N720 is an industrial 4G module that is developed on Qualcomm platform. Its dimensions are
30mm x 28 mm x 2.8mm and it is with industrial-grade high-performance: ultra-wide operating
temperature of -40 ℃ to +85 ℃, electrostatic capacity of 8KV. It is well applicable to electric
terminals, in-vehicle computers, POS, industrial routers, and other IoT terminals with the
following features:

ARM Cortex-A7 processors, 1.2 GHz main frequency, 256 kB L2 cache, 28 nm

GSM/GPRS/EDGE

SIM/ADC/UART
&WCDMA R99
N720 series include the following versions:
LTE
Band
Version
CN
●
●
JP
●
●
EU
●
●
US
B2
B3
B4
B5
●
●
●
●
●
●
B1
B2
B2
B4
●
B5
B8
JP
●
●
EU
●
●
JP: Japan
●
B3
B4
B4
●
●
●
●
●
●
GSM
●
●
B3
●
UMTS
B1
B2
●
●
●
CN: China
B1
●
CN
US
B1
B9
●
●
Band
Version
●
B9
●
B19
850
900
1800
1900
●
●
●
●
●
●
●
●
●
●
●
EU: Europe US：The United States
Copyright © Neoway Technology Co., Ltd
N720 Hardware User Guide
1.2 Block Diagram
Figure 1-1 shows the block diagram of N720 Modular only,
Figure 1-1 N720 block diagram
1.3 Features
Table 1-1 N720 baseband and wireless features
Specifications
Description
Power supply
VBAT: 3.3V to 4.3V, TYP: 3.8 V
Current in sleep
mode
4mA
Copyright © Neoway Technology Co., Ltd
N720 Hardware User Guide
Operating temperature: -40°C to +85°C
Temperature
Limited: -40°C to +85°C
Storage temperature: -40°Cto +85°C
ARM Cortex-A7 processor
Processor
Main frequency: 1.2 GHz
256kB L2 cache
CN:

GSM/GPRS/EDGE:900M/1800M

TD_SCDMA:B34/B39

UMTS:B1/B8

LTE-FDD B1/B3/B5

LTE-TDD B38/B39/B40/B41
JP:
Band

UMTS: B1/B8/B9/B19

FDD-LTE: B1/B3/B8/B9/B19
EU:

GSM/GPRS/EDGE:850M/ 900M/1800M/1900M

UMTS: B1/B8

FDD-LTE: B1/B3/B5/B7/B8/B20

TDD-LTE: B40；
US:

GSM/GPRS/EDGE: 850M/1900M

UMTS: B2/B4/B5

FDD-LTE: B2/B4/B5/B7/B12/B17
GSM:GPRS,EDGE
Rate
WCDMA:
LTE FDD: non-CA cat4, Max 150Mbps(DL)/Max 50Mbps(UL)
LTE TDD: non-CA cat4,Max 130Mbps(DL)/Max 35Mbps(UL)
GSM850: +34dBm (Power Class 4)
EGSM900: +34dBm (Power Class 4)
Transmit power
DCS1800: +31.5dBm (Power Class 1)
PCS1900: +31.5dBm (Power Class 1)
EDGE 850MHz: +28.5dBm (Power Class E2)
EDGE 900MHz: +28.5dBm (Power Class E2)
Copyright © Neoway Technology Co., Ltd
N720 Hardware User Guide
EDGE1800MHz: +27.5dBm (Power Class E2)
EDGE1900MHz: +27.5dBm (Power Class E2)
UMTS: 24dBm (Power Class 3)
LTE: +23dBm (Power Class 3)
Antenna feature
50Ω impedance
UART
At most 4 Mbps, 1 group
UIM
1 groups, 1.8V/3V dual-voltage adaptive
USB
1 group of USB2.0 high-speed interface
ADC
2 groups of 16-bit ADC, input voltage ranging from 0.1 to 1.7V
Copyright © Neoway Technology Co., Ltd
N720 Hardware User Guide
2 Application Interfaces
N720 adopts 100-pins LGA encapsulation.
2.1 Specifications and Pin Definition
Table 2-1 N720 dimensions
Specifications
N720
Dimensions
30mm*28 mm*2.8mm(H*W*D)
Weight
5.1g
Package
100-Pin LGA
Figure 2-1 Top view of N720
Copyright © Neoway Technology Co., Ltd
N720 Hardware User Guide
2.2 Pin Description
IO: input/output
DI: Digital input
DO: Digital output
PI: Power input
PO: Power output
AI: Analog input
AO: Analog output
Table 2-2 N720 pin description
Name
Pin
I/O
Function
Level Feature (V)
27, 28, 29
PI
Main power supply input
Vmax=4.3V
Power
Domain
Remarks
Power Supply
VABT
The power supply can
provide up to 3A current
VDDIO _1P8
45
GND
1, 14, 17, 20,
Copyright © Neoway Technology Co., Ltd
PO
1.8 V power supply output
Vnorm=1.8V;
Imax=100mA
1.8V
Supply power for IO level
shifting circuit. Leave it
disconnected if you do not
use it.
GND
N720 Hardware User Guide
26, 30, 31,
44, 49, 74,
75, 77, 91,
93, 95, 97,
98, 99, 100
Power on/off and reset
RESET
32
DI
Reset input
1.8V
VIL min=-0V;
PWRKEY
33
DI
Power ON/OFF
VIL max=0.5V;
1.8V
VIH min=1.2V;
VIH max=2.1V;
PON_TRIG
34
DI
PON_TRIG
Low level triggers the ON
status and can control the
power off and reset.
Low level triggers the ON
status.
It is pulled up by an internal
200 KΩresistor.
High level triggers the ON
status.
1.8V
It is pulled up by an internal
200 KΩresistor.
Ground it if you do not use it.
UART
UART2_TXD
UART2_RXD
46
47
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DO
DI
UART data transmit
UART data receive
VOL max=0.45V;
VOH min=1.35V;
VIL min=-0.3V;
1.8V
1.8V
Data communication
Leave them disconnected if
you do not use them.
N720 Hardware User Guide
VIL max=0.45V;
VIH min=1.35V;
VIH max=2.1V
UART2_CTS
51
DI
Clear to send
VOL max=0.45V;
VOH min=1.35V;
1.8V
Leave it disconnected if you
do not use it.
1.8V
Leave it disconnected if you
do not use it.
VIL min=-0.3V;
UART2_RTS
52
DO
Request to send
VIL max=0.45V;
VIH min=1.35V;
VIH max=2.1V
UIM
1.8V USIM:
Vmax = 1.9V ;
Vmin = 1.7V;
VUIM
35
PO
UIM power supply output
3V USIM:
1.8V/3V
Vmax = 3.05V;
Compatible with 1.8/3V UIM
card
Vmin = 2.7V;
IO max =50mA
1.8V USIM:
UIM_RESET
38
DO
UIM reset
VOL max = 0.45V;
VOH min = 1.35V;
1.8V/3V
3V USIM:
Copyright © Neoway Technology Co., Ltd
N720 Hardware User Guide
VOL max = 0.4V;
VOH min = 2.6V;
UIM_DATA
1.8V USIM:
VIL max = 0.6V;
VIH min = 1.2V;
VOL max = 0.45V;
36
IO
UIM data input, output
VOH min = 1.35V;
3V USIM:
1.8V/3V
VIL max = 0.8V
VIH min = 1.95V
VOL max = 0.45V
VOH min = 2.6V
Compatible with 1.8/3V UIM
card
1.8V USIM:
VOL max = 0.45V
UIM_CLK
37
DO
UIM clock output
VOH min = 1.35V
3V USIM:
1.8V/3V
VOL max = 0.4V
VOH min = 2.6V
UIM_DETECT
39
DI
UIM detect
VIL min = -0.3V
VIL max = 0.63V
1.8V
USB
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N720 Hardware User Guide
USB_DM
41
IO
USB data negative signal
USB2.0
USB_DP
42
IO
USB data positive signal
USB2.0
VBUS
40
PI
USB voltage test
3.3V~5.2V, typically 5V
USB _ID
43
AI
Identify host and device
88
AI
Analog-to-digital signal
conversion
Vmax=1.7V
Vmax=1.7V
Used for firmware download
and data transmission
Differential trace for DM and
DP
90Ω impedance resistance
1.8V
Leave it disconnected if you
do not use it.
ADC
ADC2
ADC1
89
AI
Analog-to-digital signal
conversion
83
DO
Indicate network status
Vmin=0.1V
Vmin=0.1V
1.8V
16-bit, detectable voltage
range: 0.1 V to 1.7 V
1.8V
Network LED Indicator
NET_LIGHT
VOL max=0.45V;
VOH min=1.35V;
1.8V
Leave it disconnected if you
do not use it.
1.8V
Leave it disconnected if you
do not use it.
Sleep Mode Control
VIL min=-0.3V;
DTR
79
DI
Sleep mode control
VIL max=0.45V;
VIH min=1.35V;
VIH max=2.1V
RING
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N720 Hardware User Guide
RING
13
DO
Incoming call ring
VOL max=0.45V;
VOH min=1.35V;
1.8V
Leave it disconnected if you
do not use it.
1.8V
Leave it disconnected if you
do not use it.
Other Pins
VIL min=-0.3V;
FORCE_USB_BOOT
48
DI
Force to download and
upgrade control pin
VIL max=0.45V;
VIH min=1.35V;
VIH max=2.1V
ANT_MAIN
76
Main antenna
50 Ω impedance
ANT_GPS
92
GPS antenna
50 Ω impedance
ANT_AUX
94
4Gdiversity aerial
50 Ω impedance
NC
2、3、4、5、
6、7、8、9、
10、11、12、
15、16、18、
19、21、22、
23、24、25、
50、53、54、
55、56、57、
58、59、60、
61、62、63、
64、65、66、
67、68、69、
70、71、72、
NC
Copyright © Neoway Technology Co., Ltd
Leave them disconnected.
Do not use them.
11
N720 Hardware User Guide
73、78、80、
81、82、84、
85、86、87、
90、96
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N720 Hardware User Guide
2.3 Power Control Interfaces
Name
Pin
I/O
Function
Remarks
VABT
17/18/1
Main power supply
input
3.3 V to 4.3 V (TYP: 3.8 V )
VDDIO_1P8
45
1.8 V power supply
output
Supply power for IO level shifting
circuit.
Load capability: <100 mA
Advise to add ESD to protect while
using.
RESET
32
DI
Reset input
Low level
PON_TRIG
34
DI
PON_TRIG
High level triggers the ON status
PWRKEY
33
DI
Power ON/OFF
Low level triggers the ON status
2.3.1 VBAT
VBAT is the power supply input pin of the module. Its input voltage ranges from 3.3 V to 4.3 V and
the preferable value is 3.8V. In addition to baseband, it supplies power for RF power amplifier.
The performance of the VBAT power supply is a critical path to module's performance and
stability. The peak input current at the VBAT pin can be up to3A when the signal is weak and the
module works at the maximum transmitting power. The voltage will encounter a drop in such a
situation. The module might restart if the voltage drops lower than 3.3 V.
Copyright © Neoway Technology Co., Ltd
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N720 Hardware User Guide
Figure 2-2 Current peaks and voltage drops
Figure 2-3 shows the reference design of the VRTC power supply.
Figure 2-3 Capacitors used for the power supply
In Figure 2-3, you can use TVS at D1 to enhance the performance of the module during a burst.
SMF5.0AG (Vrwm=5V&Pppm=200W) is recommended. A large bypass tantalum capacitor (220
μF or 100 μF) or aluminum capacitor (470 μF or 1000 μF) is expected at C1 to reduce voltage
drops during bursts together with C2 (10-μF ceramics capacitor). It is recommended that you add
0.1 μF, 100 pF, and 33 pF filter capacitors to enhance the stability of the power supply.
The module might fail to reset or power on/offin remote or unattended applications, or in an
environment with great electromagnetic interference (EMI). A controllable power supply is
Copyright © Neoway Technology Co., Ltd
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N720 Hardware User Guide
preferable if used in harsh conditions. You can use the EN pin on the LDO or DC/DC chipset to
control the switch of the power supply as shown inFigure 2-4if a 5V power supply is used.
MIC29302WU in Figure 2-4 is an LDO and outputs 3 A current to ensure the performance of the
module.
Figure 2-4 Reference design of power supply control
The alternative way is to use an enhancement mode p-MOSFET to control the module's power,
as shown inFigure 2-5. When the external MCU detects the exceptions such as no response
from the module or the disconnection of GPRS, power off/on can rectify the module exceptions.
InFigure 2-5, the module is turned on when PWR_EN is set to high level.
Figure 2-5 Reference design of power supply controlled by p-MOSFET
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N720 Hardware User Guide
Q2 is added to eliminate the need for a high enough voltage level of the host GPIO. In case that
the GPIO can output a high voltage greater than VCCIN - |VGS(th)|, where VGS(th) is the Gate
Threshold Voltage, Q2 is not needed.
Reference components:

Q1 can be IRML6401 or low Rds(on) pMOSFET, which has higher, withstand voltage and
drain current.

Q2: a common NPN tripolar transistor, e.g. MMBT3904; or a digital NPN tripolar transistor,
e.g. DTC123. If digital tripolar transistor is used, delete R1 and R2.

C3: 470-μF tantalum capacitor rated at 6.3V, or 1000 μF aluminum capacitor. If lithium
battery is used to supply power, C3 can be 220-μF tantalum capacitor.
Power Supply Protection
Add TVS diodes (VRWM=5 V) on the VBAT power supply, especially in automobile applications.
For some stable power supplies, Zener diodes can decrease the power supply overshoot.
SMF5.0AG from ONSEMI is an option.
Line Rules
The width of primary loop lines for VBAT on PCB must be able to support the safe transmission of
2 A current and ensure no obvious loop voltage decrease. Therefore, the loop line width of VBAT
is required 2 mm and the ground level should be as complete as possible.
Separation
The module works in burst mode that generates voltage drops on power supply. Furthermore,
this results in a 217Hz TDD noise through power (One of the way generating noise. Another way
is through RF radiation). Analog parts, especially the audio circuits, are subjected to this noise,
known as a "buzz noise" in GSM systems. To prevent other parts from being affected, it is better
to use separated power supplies. The module shall be supplied by an independent power, like a
DC/DC or LDO. SeeFigure 2-6.
DC/DC or LDO should output rated peak current larger than 2 A.
The inductor used in Reference Design (b), should be a power inductor and have a very low
resistance. The value of 10 μH, with average current ability greater than 1.2A and low DC
resistance, is recommended.
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N720 Hardware User Guide
Figure 2-6 Reference designs of separated power supply
Never use a diode to make the drop voltage between a higher input and module power.
Otherwise, Neoway will not provide warranty for product issues caused by this. In this situation,
the diode will obviously decrease the module performances, or result in unexpected restarts, due
to the forward voltage of diode will vary greatly in different temperature and current.
EMC Considerations for Power Supply
Place transient overvoltage protection components like TVS diode on power supply, to absorb
the power surges. SMAJ5.0A/C could be a choice.
2.3.2 VDDIO_1P8
VDDIO_1P8 supports output voltages of 1.8V. It is recommended that VDDIO_1.8V@100mAbe
used only for interface level shifting and to add ESD to protect while using.
2.3.3 ON/OFF
Power-On
After powering on the VBAT pin, you can use PWRKEY to start the module by inputting low-level
pulse for 100 ms (200 ms is recommended). This pin is pulled up by 200Ω internally. Its typical
high-level voltage is 1.8 V. The following circuit Figure 2-7 or Figure 2-8 is recommended to
control PWRKEY.
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N720 Hardware User Guide
Figure 2-7 Push switch controlling
Figure 2-8 MCU controlling
If the module is powered on but the power-on sequence has not been completed, the states of
each pin are uncertain. The power-on sequence of the module is shown in Figure 2-9.
Figure 2-9 N720 power-on/off sequence
If your application does not require ON/OFF control, you can pull the PWRKEY pin down to GND
through 1.5K resistor. Then the module can start automatically after it is powered on. If you do
Copyright © Neoway Technology Co., Ltd
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N720 Hardware User Guide
not use the PWRKEY pin, it must be left disconnected. The PON_TRIG pin can trigger the ON
status of the module by high level.
Power-off
Power off can be achieved through two methods, one is to use PWRKEY input pin; the other is to
use RESET pin.
1. Use PWRKEY pin. Low-level pulse input for 2 seconds can trigger the power-off status of the
module. This pin is pulled up internally. Its typical high-level voltage is 1.8 V. Leave this pin
disconnected if you do not use it.
2. Use RESET pin. Input more than 900ms low pulse when the module is at working status can
trigger the module power off.
If 2.8V / 3.3V IO system is used, it is recommended to use external triode isolation. For details,
refer to Section 2.3.4 RESET Pin Descriptions. Figure 2-10 shows the hard power-off sequence.
Figure 2-10 N720 power-off sequence
2.3.4 RESET
The RESET pin is used to reset and power off the module. It triggers module reset when you
input low-level pulse less than 900ms and the module will power off when input low-level pulse
more than 900ms. (One second is recommended.). This pin is pulled up internally. Its typical
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N720 Hardware User Guide
high-level voltage is 1.8 V. Leave this pin disconnected if you do not use it. If you use a 2.8V/3.3V
IO system, it is recommended that you add a triode to separate it. Refer to the following design.
Figure 2-11 Reset controlled by button
Figure 2-12 Reset circuit with triode separating
In a circuit shown in Figure 2-12, VDD_EXT=2.8V/3.3V/3.0V, R2=4.7K, R3=47K. Figure 2-13
shows the reset sequence.
Figure 2-13 N720 reset sequence
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N720 Hardware User Guide
2.4 USB Interface
Name
Pin
I/O
Function
Remarks
VBUS
40
USB voltage test
3.3V~5.2V, typically 5V
USB_DM
41
IO
USB data negative
signal
USB_DP
42
IO
USB data positive
signal
USB2.0, used for firmware
download and data transmission
You can download programs for N720 and establish data communication for commissioning
through the USB interface. If the module is used only as USB Device, the recommended USB
circuit is shown in Figure 2-14.
PESD5V0S1BL
Figure 2-14 USB circuit
22PF 1UF
VBUS
Micro USB
0Ω
USB_DM
0Ω
USB_DP
ESD9X5VU
ESD9X5VU
DNI-18PF
Parallel a 1μF and 22pF filter capacitors to the VBUS pin as close to the pin as possible. TVS
components are required for the VBUS power line. The junction capacitance of the TVS
protection diodes for USB_DP and USB_DM should be lower than 12pF as possible. USB data
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N720 Hardware User Guide
lines adopt differential trace design, in which the differential impedance is limited to 90 Ω
characteristics impedance. Isolate the traces from other signal traces.
2.5 UIM Card Interface
Name
Pin
I/O
Function
Remarks
VUIM
35
PO
UIM power supply output
Compatible with 1.8/3 V
UIM card
A 10K resistor is required
between VUIM and
UIM-DATA.
UIM_DATA
36
IO
UIMdata I/O
UIM_CLK
37
DO
UIMclock output
UIM_RESET
38
DO
UIMreset
UIM_DETECT
39
DI
UIM detect
Advise to use
resistor
a pull-up
N720 supports 1.8V/3V UIM cards.. VUIM is the power supply pin of the UIM card and its
maximum load is 30 mA. The UIM_DATA pin is not pulled up internally, so you need to reserve
external pull-up resistor in your design. UIM_CLK is the clock signal pin, supporting 3.25 GHz of
clock frequency. Figure 2-15 shows the reference design of the UIM card interface.
Figure 2-15 Reference design of SIM card interface
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N720 Hardware User Guide
ESD protectors, such as ESD diodes or ESD varistors (with a junction capacitance of less than
33 pF), are recommended to be added on the SIM signals, especially in automotive electronics or
other applications with badly ESD. Replace the ESD diodes with 27 pF to 33 pF capacitors
connecting to GND in common applications. The ESD diodes or small capacitors should be close
to UIM card.
N720 supports SIM card detection. UIM_DETECT is 1.8V interrupt pins. Low level means UIM
card detected while high level mean no UIM card detected.
If you apply N720 to some electric terminals, MUP-C713(H2.8) is recommended.
Figure 2-16 Encapsulation
The antenna should be installed far away from the UIM card and UIM card traces, especially to
the build-in antenna.
The UIM traces on the PCB should be as short as possible and shielded with GND copper.
The ESD protection diodes or small capacitors should be close to UIM card on the PCB.
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N720 Hardware User Guide
2.6 GPIO
N720supports UART. You can configure the GPIO to meet your requirements for connecting to
different devices. For the open multi-function GPIO interface, please inquiry our technical support
engineers. The level of the module interface is 1.8 V. Table 2-3lists GPIO pins.
Table 2-3 GPIO
Name
Pin
I/O
Function
UART2_TXD
46
DO
UART data transmit
UART2_RXD
47
DI
UART data receive
UART2_CTS
51
DI
Clear to send
UART2_RTS
52
DO
Request to send
ADC2
88
AI
ADC2input
ADC1
89
AI
ADC1input
NET_LIGHT
83
DO
Indicate network status
DTR
79
DI
Sleep mode control
RING
13
DO
Incoming call ring
Remarks
Data communication
16-bit, detectable voltage
range: 0.1 V to 1.7 V
1.1.1 UART
N720 provides one group of UART interfaces, which support hardware flow control and 4Mbps at
most. The high level is 1.8V. Figure 2-17 shows the reference design of the UART interface.
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N720 Hardware User Guide
Figure 2-17 Reference design of the UART interface
If the UART does not match the logic voltage of the MCU, it is recommended that you add a level
shifting circuit outside of the module as shown in Figure 2-18.
Figure 2-18 Recommended level shifting circuit
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N720 Hardware User Guide
Components:
R2/R4: 2K-10K. The greater the UART baud rate is, the lower the R2 value is.
R1/R3: 4.7K-10K The greater the UART baud rate is, the lower the R3 value is.
Q1: MMBT3904 or MMBT2222 High-speed transistor is better.
MCU_UTXD and MCU_URXD are respectively the TX and RX ports of the MCU while TXD and
RXD are respectively the TX and RX ports of the module.
Voltage at VCC_IO is the voltage at the UART of the MCU while voltage at VDDIO_1V8 is the
voltage at the UART of the module.
2.6.2 ADC
N720 provides two ADC channels, and the input voltage ranges from 0.1 to 1.7V. ADC pin
supports highest precision of 16-bit and it can be used for temperature and other check. If you
apply this pin to SIM card temperature check on electric terminals, refer to Neoway GPRS
Module ADC User Guide.
2.6.3 NET_LIGHT
NET_LIGHT can output 1.8 V high level and is forbidden to be used to drive the LED indicator.
Users can drive the LED with a transistor instead, as shown in Figure 2-18.
Figure 2-19 LED indicator driven by transistor
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N720 Hardware User Guide
When the module is running, the LED indicator is driven by the NET_LIGHT pin to indicate
different module status with its various blink behaviors. N720 supports multiple blink style and
you can configure it using AT commands.
2.6.4 DTR
Generally, DTR is used to control sleep mode together with AT commands. Enable the sleep
mode function by AT command. Then pulling DTR low will bring the module into sleep mode if the
module is idle. In this mode, the idle current is less than 4 mA, depending on the DRX setting of
network.
In sleep mode, the module can respond to the incoming call, SMS, and GPRS data. The host
MCU can also control the module to exit sleep mode by controlling DTR.
Process of entering sleep mode:
1.
Keep DTR high level in normal working mode. Activate the sleep mode by using the
AT+ENPWRSAVE=1 command.
2.
Pull DTR low, and the module will enter sleep mode, but only after process and pending data
finished.
3.
In sleep mode, the external MCP can pull DTR high so that the module will exit from sleep
mode actively. Then the module can transmit data and initiate calls. After processing is
finished, pull DTR low again to take the module back to sleep mode.
4.
In sleep mode, the module can be woken up by the events of incoming voice call, received
data, or SMS. Meanwhile the module will send out the unsolicited messages through the
UART.
Upon receipt of the unsolicited messages, the host MCU should pull DTR high firstly,
otherwise the module will resume sleep mode in two minutes after the service processing.
Then the host MCU can process the voice call, received data, or SMS. After processing is
finished, pull DTR low again to put the module into sleep mode.
2.6.5 RING Signal Indicator

Calling: Once a voice call is incoming, UART outputs "RING" character strings and
meanwhile the RING pin outputs 30 ms low pulses at 5s period. After the call is answered,
the high level restores.
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N720 Hardware User Guide
Figure 2-20 RING indicator for incoming call
30 ms
30 ms
5s

SMS: Upon receipt of SMS, the module outputs one 35 ms low pulse.
Figure 2-21 RING indicator for SMS
35 ms
2.7 Commissioning Interfaces
To facilitate software update and commissioning, reserve the commissioning interfaces.
2.7.1 FORCE_USB_BOOT
The module can enter the fastboot mode by short connecting the FORCE_USB_BOOT pin and
VDDIO_1P8V during the startup. This is the last method to troubleshoot the abnormality that the
module cannot start or operation properly.
Figure 2-22 Reference design of the fast boot interface
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N720 Hardware User Guide
3 RF Interface
Name
Pin
I/O
Function
ANT_MAIN
76
AI/O
2G/3G/4G main antenna
ANT_GPS
92
AI
GPS antenna
ANT_AUX
94
AI
4Gdiversity aerial
Remarks
50Ω characteristic
impedance
3.1 2G/3G/4G RF Design and PCB Layout
ANT_MAIN and ANT_AUX is the antenna pin of N720. A 50 Ω antenna is required. VSWR
ranges from 1.1 to 1.5. The antenna should be well matched to achieve best performance. It
should be installed far away from high-speed logic circuits, DC/DC power, or any other strong
disturbing sources.
A 50 Ω antenna is required. VSWR ranges from 1.1 to 1.5. The antenna should be well matched
to achieve best performance.
For multiple-layer PCB, the trace between the antenna pad of module and the antenna connector,
should have a 50 Ω characteristic impedance, and be as short as possible. The trace should be
surrounded by ground copper. Place plenty of via holes to connect this ground copper to main
ground plane, at the copper edge.
For dual-layer PCB, the width of recommended impedance trace is 0.8 mm to 1 mm and the
grounding copper should away from the trace for 1 to 1.5 time of the trace width.
If the trace between the module and connector has to be longer, or built-in antenna is used, a
π-type matching circuit is needed, as shown in Figure 3-1.
Figure 3-1 Reference of antenna matching design
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N720 Hardware User Guide
Big RF solder pad can result in great parasitic capacitance, which will affect the antenna
performance. Remove the copper on the first and second layers under the RF solder pad.
Figure 3-2 Recommended RF PCB design
If you adopt RF antenna connections, the GSC RF connector MM9329-2700RA1 from Murata is
recommended..Figure 3-3shows the encapsulation specifications.
Figure 3-3 Encapsulation specifications of Murata RF connector
RF antenna can also be connected to the module by soldering. In this manner, you must ensure
proper soldering in case of damage that lowers RF performance. Figure 3-4shows the pictures of
these two connections.
Figure 3-4 RF connections
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N720 Hardware User Guide
3.2 GPS RF Design and PCB Layout
3.2.1 GPS Impedance
The 92nd pin is the GPS interface of the module, which also requires a 50 Ω. The PCB layout for
GPS is similar to that for GPRS. For details, refer to the previous section. Figure 3-5 shows the
internal structure of the GPS RF.
Figure 3-5 GPS RF structure
In addition to the basic rules, the GPS routing has higher requirements because the air wireless
GPS signal has lower strength, which results in weaker electrical signal after the antenna
receives. Weaker signals are more susceptible to interference. Therefore, active antenna are
commonly used for GPS. The active GPS antenna amplifies the weak signals received to
stronger signals through the low-noise amplifier (LNA) and then transmits the signals through the
feeder.
If you use a passive antenna, add LNA near the feeder because the module does not embed
one.
If the antenna and layout are not designed reasonably, the GPS will be insensitive, resulting in
long time on positioning or inaccurate position.
Keep the GPRS and GPS far away from each other in layout and antenna layout.
3.2.2 Active GPS Antenna Design
Ceramic GPS chip antenna is monly used. In general, it is recommended that you use the active
ceramic antenna. After the antenna receives GPS satellite signals, the LNA amplifies them first
and then they are transmitted to the 92nd pin (GPS_ANT) through the feeder and PCB traces.
50Ω resistance is required for both the feeder and PCB traces and the traces should be as short
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N720 Hardware User Guide
as possible. The power supply of the active antenna is fed by the 100 nH inductance through the
signal traces.
Common active antenna requires 3.3V to 5V power supply. Though the active antenna has a low
power consumption, it requires stable and clean power supply. You are advised to use
high-performance LDO to supply power for the antenna through a 100 nH inductance, as shown
inFigure 3-6.
Figure 3-6 Power supply reference for active antenna
It is recommended that you add an ESD protection diode to the antenna interface in an
environment with great electromagnetic interference and other applications with badly ESD. The
ESD protection diode must have ultra-low capacitance (lower than 0.5 pF). Otherwise, it will
affect the impedance of the RF loop or result in attenuation of RF signals. RCLAMP0521P from
Semtech or ESD5V3U1U from Infineon is recommended.
On the PCB, keep the RF signals and RF components away from high-speed circuits, power
supplies, transformers, great inductors, the clock circuit of single-chip host, etc.
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N720 Hardware User Guide
4 Electric Feature and Reliability
4.1 Electric Feature
Table 4-1 N720 Electric Feature
Module Status
Minimum Value
Typical Value
Maximum Value
Vin
3.3V
3.8V
4.3V
Iin
3A
VBAT
If the voltage is too low, the module might fail to start. If the voltage is too high or there is a
voltage burst during the startup, the module might be damaged permanently.
If you use LDO or DC-DC to supply power for the module, ensure that it output at least 3 A
current.
4.2 Temperature
Table 4-2 Temperature Feature
Module Status
Minimum Value
Typical Value
Maximum Value
Work
-40°C
25°C
85°C
Limit
-40°C
85°C
Storage
-40°C
85°C
If the module works in temperature exceeding the thresholds, its RF performance might be worse
but it can still work properly.
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N720 Hardware User Guide
4.3 ESD Protection
Electronics need to pass sever ESD tests. The following table shows the ESD capability of key
pins of our module. It is recommended that you add ESD protection to those pins in accordance
to the application to ensure your product quality when designing your products.
Humility: 45% Temperature: 25°C
Table 4-3 N720 ESD feature
Testing Point
Contact Discharge
Air Discharge
VBAT
±8KV
±15KV
GND
±8KV
±15KV
ANT
±8KV
±15KV
Cover
±8KV
±15KV
Others
±2KV
±4KV
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N720 Hardware User Guide
5 RF Feature
5.1 Work Band
Table 5-1 N720 work band
Work band
Uplink
Downlink
GSM850
824~849MHz
869~894MHz
PCS1900
1850~1910MHz
1805~1880MHz
UMTS B2
1850~1910MHz
1805~1880MHz
UMTS B4
1710~1755MHz
2110~2155MHz
UMTS B5
824~849MHz
869~894MHz
LTE-FDD B2
1850~1910MHz
1805~1880MHz
LTE-FDD B4
1710~1755MHz
2110~2155MHz
LTE-FDD B5
824~849MHz
869~894MHz
LTE-FDD B7
2500~2570MHz
2620~2690MHz
LTE-FDD B12
699.7 – 715.3 MHz
729.7– 745.3 MHz
LTE-FDD B17
704~716MHz
734~746MHz
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N720 Hardware User Guide
5.2 TX Power and RX Sensitivity
Table 5-2 N720 RF power and RX sensitivity
Band
Transmitting Power
Receiving Sensitivity
GSM850
34 dBm
<-108 dBm
PCS1900
31.5 dBm
<-108 dBm
UMTS B2
24 dBm
<-108 dBm
UMTS B4
24 dBm
<-108 dBm
UMTS B5
24 dBm
<-108 dBm
LTE-FDD
B2
23 dBm
<-95 dBm
LTE-FDD
B4
23 dBm
<-97 dBm
LTE-FDD
B5
23 dBm
<-95 dBm
LTE-FDD
B7
23 dBm
<-95 dBm
LTE-FDD
B12
23 dBm
<-95 dBm
LTE-FDD
B17(10MHz)
23 dBm
<-95 dBm
All the values above are obtained in the lab environment. In your actual applications, there
might be a difference because of the network environment.
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N720 Hardware User Guide
6 Mechanical Feature
6.1 Dimensions
Figure 6-1 Dimensions of N720
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N720 Hardware User Guide
6.2 PCB Foot Print
Figure 6-2 N720PCBFoot Print(Top View)
A test point is reserved at the Silk Area. It is recommended that you add a layer of white ink in
case short circuit. Do not lay out any trace under the JTAG pin.
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N720 Hardware User Guide
7 Mounting and Packaging
7.1 Mounting the Module onto the Application Board
N720 is compatible with industrial standard reflow profile for lead-free SMT process.
The reflow profile is process dependent, so the following recommendation is just a start point
guideline:

Only one flow is supported.

Quality of the solder joint depends on the solder volume. Minimum of 0.12 mm to 0.15stencil
thickness is recommended.

Use bigger aperture size of the stencil than actual pad size.

Use a low-residue, no-clean type solder paste.
For information about cautions in N720 storage and mounting, refer to Neoway Module Reflow
Manufacturing Recommendations.
When you maintain and manually solder it, use heat guns with great opening, adjust the
temperature to 250 degrees (depending on the type of the solder paste), and heat the module till
the solder paste is melt. Then remove the module using tweezers. Do not shake the module in
high temperature when you remove it. Otherwise, the components inside the module might be
misplaced.
7.2 Package
N720 modules are packaged in sealed bags on delivery to guarantee a long shelf life. Package
the modules again in case of opening for any reasons.
If exposed in air for more than 48 hours at conditions not worse than 30°C/60% RH, a baking
procedure should be done before SMT. Or, if the indication card shows humidity greater than
20%, the baking procedure is also required. Do not bake modules with the package tray directly.
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N720 Hardware User Guide
8 SMT TemperatureCurve
Figure 8-1 Temperature curve
X: Time (s) Y Temperature (°C)
Technicalparameters:

Ramp up rate: 1to 4°C/sec; Ramp down rate: -3 to-1°C/sec

Soaking zone: 150-180°CTime: 60-100s

Reflow zone:>220°CTime: 40-90s

Peak temperature: 235-250°C
It is not recommended that you use the kind of solder paste different from our module technique.

The melting temperature of solder paste with lead is 35°Clower than that of solder paste
without lead. It is easy to cause faulty joints for BGA inside the module after second reflow
soldering.

If you can use only solder pastes with lead, please ensure that the reflow temperature is kept
at 220°C for more than 45 seconds and the peak temperature reaches 240°C.
Neoway will not provide warranty for heat-responsive element abnormalities caused by improper
temperature control.
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N720 Hardware User Guide
9 Abbreviations
ADC
Analog-Digital Converter
CPU
Central Processing Unit
DTR
Data Terminal Ready
EGSM
Enhanced GSM
ESD
Electronic Static Discharge
GPRS
General Packet Radio Service
GSM
Global Standard for Mobile Communications
IMEI
International Mobile Equipment Identity
LED
Light Emitting Diode
PCB
Printed Circuit Board
RF
Radio Frequency
SIM
Subscriber Identification Module
UART
Universal asynchronous receiver-transmitter
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N720 Hardware User Guide
FCC Information
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 residential 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 these paration between the equipment and receiver.
Connect the equipment into an outlet on the circuit different from that to which the receiver is
connected.
Consult the dealer or an experienced radio/TV technician for help.
CAUTION!
The manufacturer is not responsible for any radio or TV interference caused by unauthorized
modifications to this equipment. Such modifications could void the user authority to operate the
equipment.
If the FCC identification number is not visible when the module is installed inside another device,
then the outside of the device into which the module is installed must also display a label
referring to the enclosed module. This exterior label can use wording such as the following:
“Contains Transmitter Module FCC ID: PJ7-1705 Or Contains FCC ID: PJ7-1705”
FCC RADIATION EXPOSURE STATEMENT
This equipment complies with FCC RF radiation exposure limits set for an uncontrolled
environment. This transmitters must not be co-located or operating in conjunction with any other
antenna or transmitter. 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, including interference that may cause undesired operation.
The distance between user and product include antenna should be no less than 25 cm.
The maximum permissible antenna gain is 0 dBi for each band, and under no conditions may
an antenna gain be used that would exceed the ERP and EIRP power limits as specified in
Parts 22, 24 and 27.
Copyright © Neoway Technology Co., Ltd
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