EBYTE E220-900T30D LoRa Wireless Module User Manual
- June 6, 2024
- ebyte
Table of Contents
- EBYTE E220-900T30D LoRa Wireless Module
- Disclaimer and copyright notice
- Introduction
- Features
- Specification and Parameter
- Size and Pin Definition
- Recommended Connection Diagram
- Function Description
- Operating Mode
- Register Read and Write Control
- Configuration Instruction on Computer
- Hardware Design
- FAQ
- Soldering Operation Guidance
- Related Models
- Antenna Recommendation
- Package for Bulk Order
- About us
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
EBYTE E220-900T30D LoRa Wireless Module
Disclaimer and copyright notice
The information in this article, including the URL for reference, is subject to change without notice. The document is provided “as is” without warranty of any kind, including any warranty of merchantability, fitness for a particular purpose or non-infringement, and any warranty of any proposal, specification or sample referred to elsewhere. This document does not bear any liability, including any infringement of any patent rights resulting from the use of the information contained in this document. No estoppel or other license, express or implied, is granted herein for the use of intellectual property.
All the test data obtained in this paper are obtained by E-Baite laboratory, and the actual results may be slightly different.
It is hereby declared that all trade names, trade marks and registered trade marks mentioned herein are the property of their respective owners.
The right of final interpretation belongs to Chengdu Yibaite Electronic Technology Co., LTD.
The attention
The contentsof this manual may change due toproduct version upgrade or other
reasons. E-baite Electronic Technology Co., Ltd. reserves the right to modify
the contents of this manual without any notice or prompt. This manual is only
used as a guide, and Chengdu Yibaite Electronic Technology Co., Ltd. makes
every effort to provide accurate information in this manual, but Chengdu
Yibaite Electronic Technology Co., Ltd. does not guarantee that the content of
this manual is completely free of errors, and all statements, information and
Suggestions in this manual do not constitute any express or implied warranty.
Introduction
E220-900T30D adopts a new generation of LoRa spread spectrum technology and a
wireless serial port module (UART) designed based on the LLCC68 chip scheme.
It has a variety of transmission methods, works in the (850.125 ~930.125MHz)
frequency band (default 873.125MHz), TTL level output, compatible with 3.3V
and 5V IO port voltage.
E220-900T30D adopts a new generation of LoRa spread spectrum technology,
supports air wake-up, carrier monitoring, communication key and other
functions, supports sub-package length setting, and Ebyte provides customized
development services.
Features
- The new LoRa spread spectrum modulation technology developed based on LLCC68, it brings a longer communication distance and stronger anti-interference ability;
- Support users to set the communication key by themselves, and it cannot be read, which greatly improves the confidentiality of user data;
- Support LBT function, monitor the channel environment noise before sending, which greatly improves the communication success rate of the module in harsh environments;
- Support RSSI signal strength indicator function for evaluating signal quality, improving communication network, and ranging;
- Support air wakeup, that is, ultra-low power consumption function, suitable for battery-powered applications;
- Support fixed-point transmission, broadcast transmission, channel monitoring;
- Support deep sleep, the power consumption of the whole machine is about 5uA in this mode;
- The module has built-in PA+LNA, and the communication distance can reach 10km under ideal conditions;
- The parameters are saved after power-off, and the module will work according to the set parameters after power-on;
- Efficient watchdog design, once an exception occurs, the module will automatically restart and continue to work according to the previous parameter settings;
- Support the data transmission rate of 2.4k~62.5kbps;
- Support 3.0~5.5V power supply, power supply greater than 5V can guarantee the best performance;
- Industrial standard design, supporting long-term use at -40~+85℃;
- SMA antenna interface.
Application
- Home security alarm and remote keyless entry;
- Smart home and industrial sensors;
- Wireless alarm security system;
- Building automation solutions;
- Wireless industrial-grade remote control;
- Advanced Meter Reading Architecture (AMI);
- Automotive industry applications.
Specification and Parameter
Limit Parameter
Main Parameter
| Performance|
Remark
---|---|---
Min.| Max.
Power Supply(V)
|
0
|
5.5
| Exceeding the maximum value may burn the
module permanently
Blocking Power(dBm)| –| 10| –
Operating Temperature(℃)| -40| +85| Industrial grade
Operating Parameter
Main Parameter
| Performance|
Remark
---|---|---
Min.| Typ.| Max.
Operating voltage(V)| 3.0| 5| 5.5| ≥5.0 V ensures output power
Communication level(V)| –| 3.3| –| For 5V TTL, it may be burning down
Operating temperature(℃)| -40| –| +85| Industrial design
Operating frequency(MHz)| 850.125| –| 930.125| Support ISM band
Power consumption
| TX current(mA)| –| 620| –| Instant power consumption @30dBm
RX current (mA)| –| 17.2| –| 5V Voltage
Sleep current(μA)| –| 5| –| Software shutdown
Max Tx power(dBm)| 29.5| 30| 30| –
Receiving sensitivity(dBm)| | -147| -148| Air data rate 2.4kbps
Air data rate(bps)| | 2.4k| 62.5k| To control via user’s program
Distance for reference
|
10km
| Test condition:clear and open area, antenna gain: 5dBi,antenna height: 2.5m,air data rate: 2.4kbps
TX length
|
200 Byte
| Can be configured via command as
32/64/128/200 bytes per packet to transmit
Buffer| 400 Byte| –
Modulation| LoRa| New generation LoRa modulation technology
Communication interface| UART Serial Port| TTL Level
Package| DIP| –
Size| 24*43mm| –
Antenna| SMA-K| 50 ohm impedance
Size and Pin Definition
No. | Name | Direction | Function |
---|
1
|
M0
| Input
(weak pull-up)
| Work with M1 to decide 4 working modes of module (not suspended, if not
used, could be grounded).
2
|
M1
| Input
(weak pull-up)
| Work with M0 to decide 4 working modes of module (not suspended, if not
used, could be grounded).
3| RXD| Input| TTL UART inputs, connects to external TXD output pin.
4| TXD| Output| TTL UART outputs, connects to external RXD input pin.
5
|
AUX
|
Output
| Used to indicate the working status of the module; the user wakes up the external MCU, and outputs low level during power-on self-check
initialization; (can be left floating)
6| VCC| Input| Voltage range: 3.0~5.5V DC
7| GND| Input| Ground
8| Fixed hole| –| Fixed hole
9| Fixed hole| –| Fixed hole
10| Fixed hole| –| Fixed hole
11| Fixed hole| –| Fixed hole
Recommended Connection Diagram
No.| Brief description of the connection between the module and the
MCU (the above figure uses the STM8L MCU as an example)
---|---
1| The wireless serial port module is TTL level, please connect with TTL level
MCU.
2| For some 5V MCU, it may be necessary to add 4-10K pull-up resistors to the
TXD and AUX pins of the module.
Function Description
Fixed Transmission
Broadcasting Transmission
Broadcasting Address
- Example: Set the address of module A to 0xFFFF and the channel to 0x04.
- When module A is used as a transmitter (same mode, transparent transmission mode), all receiving modules under the 0x04 channel can receive data to achieve the purpose of broadcasting.
Monitor Address
- For example: Set the address of module A as 0xFFFF or 0x0000, and the channel as 0x04;
- When module A is the receiver, it can receive the data sent from all modules under channel 0x04, the purpose of monitor is realized.
Reset
- After the module is powered on, AUX will immediately output low level, perform hardware self-check, and set the working mode according to user parameters; During this process, AUX keeps low level, and AUX outputs high level after completion, and starts to work normally according to the working mode formed by M1 and M0; Therefore, the user needs to wait for the rising edge of AUX as the starting point for the module to work normally.
AUX Description
- AUX Pin can be used as indication for wireless send & receive buffer and self-check.
- It can indicate whether there are data that are not sent yet via wireless way, or whether all wireless data has been sent through UART, or whether the module is still in the process of self-check initialization.
Indication of UART Output
- To wake up external MCU
Indication of Wireless Transmitting
- Buffer empty: the data in the internal 400-byte buffer is written to the wireless chip (automatic sub-packaging);
When AUX=1, the user continuously initiates data less than 400 bytes without overflow;
When AUX=0, the buffer is not empty: the data in the internal 400-byte buffer has not been written to the wireless chip and the transmission is turned on. At this time, the module may be waiting for the end of the user data to time out, or the wireless
sub-packet transmission is in progress;
[Note]: When AUX=1, it does not mean that all serial port data of the module has been transmitted wirelessly, and the last packet of data may be being transmitted.
Configuration Procedure of Module
Only happened when power-on resetting or exiting sleep mode
Notes for AUX
No. | Description |
---|
1
| For function 1 & function 2 mentioned above, the priority should be given to the one with low level output, which means if it meets each of any low level output condition, AUX outputs low level, if none of the low level condition is met, AUX
outputs high level.
2| When AUX outputs low level, it means the module is busy & cannot conduct
operating mode checking. Within 1ms since AUX outputs high level, the mode
switch will be completed.
3| After switching to new operating mode, it will not work in the new mode
immediately until AUX rising edge lasts for 2ms. If AUX stays on the high
level, the operating mode switch can be affected immediately.
4| When the user switches to other operating modes from mode 3 (sleep mode) or
it’s still in reset process, the module will reset user parameters, during
which AUX outputs low level.
5
| Due to the characteristics of the LoRa modulation method, the information transmission delay is much longer than FSK. It is recommended that customers do not transmit large amounts of data at low airspeeds to avoid communication abnormalities caused by data accumulation and data loss.
Operating Mode
There are four operating modes, which are set by M1 and M0, the details are as follows:
Mode ( 0-3 ) | M1 | M0 | Description | Remark |
---|---|---|---|---|
0 Transmission Mode | 0 | 0 | UART and wireless channel are open, transparent | |
transmission is on |
1 WOR
Transmitting Mode
|
0
|
1
|
WOR Transmitter
|
2 WOR
Receiving Mode
| 1| 0| WOR Receiver| Supports wake up over air
3 Deep Sleep Mode| 1| 1| Module goes to sleep (automatically wake up when
configuring parameters)| Supports configuration
Mode Switching
No. | Remark |
---|
1
| l Users can combine M1 and M0 with high and low levels to determine the operating mode. Two GPIOs of the MCU can be used to control mode switching;
l After changing M1 and M0: If the module is idle, after 1ms, it can start working according to the new mode;
l If the serial port data of the module has not been transmitted through the wireless, the new working mode can be switched after the transmission is completed;
l If the module receives the wireless data and transmits the data through the serial port, it needs to finish transmission before switching the new working mode;
l Therefore, mode switching can only be valid when AUX output is 1, otherwise it will delay switching
2
| l For example, users continuously inputs a large amount of data and simultaneously performs mode switching. At this time, the switching mode operation is invalid; the module will process all the user data before performing the new mode detection;
l Therefore, the general recommendation is to detect the output state of the AUX pin and switch after 2ms when the output is high.
3
| l When the module is switched from other modes to sleep mode, if the data has not been processed yet;
l The module will process these data (including receiving and sending) before entering sleep mode. This feature can be used for fast sleep, which saves power; for example, the transmitter module works in mode 0, the user transmits the serial port data “12345”, and then does not have to wait for the AUX pin to be idle (high level), and can directly switch to sleep mode. And the user’s main MCU immediately sleeps, the module will automatically transmit the user data through the wireless, and automatically enters sleep within 1ms;
l This saves MCU’s working time and reduces power consumption.
---|---
4
|
l Similarly, any mode switching can use this feature. After the module processes the current mode event, it will automatically enter the new mode within 1ms; thus, eliminating the need for the user to query AUX and achieve the purpose of fast switching;
l For example, switching from the transmit mode to the receive mode; the user MCU can also enter sleep before the mode switch, and use the external interrupt function to acquire the AUX change, thereby performing mode switching.
5
|
l This operation mode is very flexible and efficient, and is designed according to the user’s MCU’s operation convenience, and can reduce the workload of the entire system as much as possible, improve system efficiency, and reduce power consumption.
Normal mode(Mode 0)
Type
|
When M0 = 0, M1 = 0, the module works in mode 0
---|---
Transmitting
|
Users can input data through the serial port and the module will start wireless transmission.
Receiving
|
The module wireless receiving function is turned on, and after receiving the wireless data, it will be output through the serial port TXD pin.
WOR sending mode (Mode 1)
Type | When M0 = 1, M1 = 1, the module works in mode 1 |
---|
Transmitting
|
When defined as a transmitting party, a preamble is automatically added before transmitting.
Receiving
|
It can receive data normally, the receiving function is the same as mode 0.
WOR receiving mode (Mode 2)
Transmitting
|
Wireless transmission off
---|---
Receiving
|
Can only receive data in WOR transmission mode (mode 1)
Deep Sleep (Configuration) Mode (Mode 3)
Type | When M0 = 1, M1 = 1, the module works in mode 3 |
---|
Transmitting
|
Unable to transmit wireless data
Receiving
|
Unable to receive wireless data
Note
| When from the sleep mode to other modes, the module will reconfigure the parameters. During the configuration process, AUX will remain low; After configuration, it outputs high level, we suggest that user test rising edge T_BUSY.
Register Read and Write Control
Command Format
In configuration mode (mode 3: M1=1, M0=1), the supported command list is as follows (when setting, only 9600, 8N1 format is supported):
No | Command Format | Description |
---|
1
|
Set Register
| Command: C0+starting address+length+parameters Response: C1+starting address+length+parameters
Example 1: Channel is 0x09
command starting address length parameter Send: C0 04 01 09
Return:C1 04 01 09
Example 2:Configure module address (0x1234), serial port (9600 8N1), air speed (2.4K) Send: C0 00 03 12 34 62
Return:C1 00 03 12 34 62
2
|
Read Register
| Command: C1+starting address+parameters Response: C1+starting address+length+parameters
Example:Read channel
command starting address length parameter
Send: C1 04 01
Return: C1 04 01 09
| | Example 2: Read module address, serial port, and airspeed at the same time Send: C1 00 03
Return:C1 00 03 12 34 62
---|---|---
3
|
Set Temporary Register
| Command: C2+starting address+parameters Response: C1+starting address+length+parameters
Example 1: Channel is 0x09
command starting address length parameter Send: C2 04 01 09
Return: C1 04 01 09
Example 2: Configure module address (0x1234), network address (0x00), serial port (9600 8N1) and air data rate (2.4K)
Send:C2 00 03 12 34 62
Return:C1 00 03 12 34 62
4
|
Wrong Format
|
Wrong format respond: FF FF FF
Register Description
Address
| Read or
Write
|
Name
|
Description
|
Remark
---|---|---|---|---
00H
| Read/ Write|
ADDH
|
ADDH(default 0)
| High byte and low byte of module address;
Note: When the module address is equal to FFFF, it can be used as the broadcast and monitor address, that is: the module will not perform
address filtering at this time
01H
|
Read/ Write
|
ADDL
|
ADDL(default 0)
02H
|
Read/ Write
|
REG0
| 7| 6| 5| UART Serial Port Rate(bps)|
For the two modules that communicate with each other, the serial port baud rate can be different, and the verification method can also be different;
When continuously transmitting large data packets, users need to consider the data congestion caused by the same baud rate, and may even be lost;
It is generally recommended that the baud rate of the two communication parties be the same.
0| 0| 0| UART Rate is 1200
0| 0| 1| UART Rate is 2400
0| 1| 0| UART Rate is 4800
0| 1| 1| UART Rate is 9600(default)
1| 0| 0| UART Rate is 19200
1| 0| 1| UART Rate is 38400
1| 1| 0| UART Rate is 57600
1| 1| 1| UART Rate is 115200
4| 3| Serial Parity Bit|
The serial port mode of the communication parties can be different;
0| 0| 8N1(default)
0| 1| 8O1
1| 0| 8E1
1| 1| 8N1(equal to 00)
2| 1| 0| Air Data Rate(bps)| The air rate of both parties must be the same;
| | | 0| 0| 0| Air Data Rate 2.4k| The higher the air rate, the smaller the
delay and the shorter the transmission distance.
---|---|---|---|---|---|---|---
0| 0| 1| Air Data Rate 2.4k
0| 1| 0| Air Data Rate 2.4k(default)
0| 1| 1| Air Data Rate 4.8k
1| 0| 0| Air Data Rate 9.6k
1| 0| 1| Air Data Rate 19.2k
1| 1| 0| Air Data Rate 38.4k
1| 1| 1| Air Data Rate 62.5k
03H
|
Read/ Write
|
REG1
| 7| 6| Sub-Packet Setting| The data sent by the user is less than the
sub-packet length, and the serial port output of the receiving end appears as an uninterrupted continuous output;
The data sent by the user is larger than the packet length, and the serial port of the receiving end will be output in packets.
0| 0| 200 bytes(default)
0| 1| 128 bytes
1| 0| 64 bytes
1
|
1
|
32 bytes
5| RSSI Ambient noise enable| After enabling, you can send commands C0 C1 C2 C3 in transmission mode or WOR sending mode to read registers;
Register 0x00: Current environmental noise RSSI; Register 0X01: RSSI when receiving data last time
(The current channel noise is:dBm = – ( 256 – RSSI));
Instruction format: C0 C1 C2 C3+start address+read length;
Return: C1 + address + read length + read valid value; for example: send C0 C1 C2 C3 00 01 Return C1 00 01 RSSI (address can only start
from 00)
0| Disable(Default)
1
|
Enable
4| 3| 2| Reserve|
1| 0| Transmitting Power| The relationship between power and current is non-
linear, and the power supply has the highest efficiency at maximum power;
The current will not decrease in the same proportion as the power decreases.
0| 0| 30dBm(default)
0| 1| 27dBm
1| 0| 24dBm
1| 1| 21dBm
04H
| Read/
Write
|
REG2
| Channel Control(CH)
0-80 represents a total of 81 channels
|
Actual frequency = 850.125 + CH *1M
05H
|
Read/ Write
|
REG3
| 7| Enable RSSI Byte| After being enabled, the module receives wireless data
and outputs it through the serial port TXD, followed by an RSSI strength byte.
0| Disable(Default)
1| Enable
6| Transmission Method| During fixed transmission, the module will recognize
the first three bytes of serial data as: address high + address low + channel,
and use it as a wireless transmission target.
0| Transparent transmission mode(default)
1| Fixed transmission mode
5| Reserve|
4| LBT Enable| After enabling, monitoring will be conducted before wireless
data transmission, which can avoid interference to a certain extent, but may
cause data delay;
The maximum stay time of LBT is 2 seconds, and
0| Disable(default)
1
|
Enable
| | | | | it will be issued forcibly when it reaches 2 seconds.
---|---|---|---|---|---
3| Reserve|
2| 1| 0| WOR Cycle|
Only valid for mode 1;
Cycle T= (1+WOR)*500ms, the maximum is 4000ms, the minimum is 500ms;
The longer the WOR monitoring interval period, the lower the average power consumption, but the greater the data delay;
Both transmitter and receiver must agree (very important)
0| 0| 0| 500ms
0| 0| 1| 1000ms
0| 1| 0| 1500ms
0| 1| 1| 2000ms
1| 0| 0| 2500ms
1| 0| 1| 3000ms
1| 1| 0| 3500ms
1| 1| 1| 4000ms
06H
|
Write
| CRYPT
_H
| Key high byte(default 0)| Write only, read returns 0;
Used for encryption to avoid interception of wireless data in the air by similar modules;
The module will use these two bytes as a calculation factor to transform and encrypt the air
wireless signal.
07H
|
Write
|
CRYPT
_L
|
Key low byte(default 0)
Factory Default Parameter
Model | Factory default parameter : c0 00 00 62 00 17 |
---|---|
Module No. | Frequency |
format | Power |
E220-900T30D
|
873.125MHz
|
0x0000
|
0x17
|
2.4kbps
|
9600
|
8N1
|
30dbm
Configuration Instruction on Computer
- The following figure shows the display interface of the E220-900T30D configuration host computer. The user can switch to the command mode through M0 and M1, and quickly configure and read the parameters on the host computer.
- In the configuration of the host computer, the module address, frequency channel, network ID, and key are all displayed in decimal mode; the value range of each parameter:
Network address:0~65535
Frequency channel:0~80
Key:0~65535
Hardware Design
- It is recommended to use a DC stabilized power supply to supply power to the module. The power ripple coefficient should be as small as possible, and the module must be reliably grounded;
- Please pay attention to the correct connection of the positive and negative poles of the power supply. Reverse connection may cause permanent damage to the module;
- Please check the power supply to ensure that it is within the recommended power supply voltage. If it exceeds the maximum value, it will cause permanent damage to the module;
- Please check the stability of the power supply, the voltage should not fluctuate greatly and frequently;
- When designing the power supply circuit for the module, it is often recommended to reserve more than 30% of the margin, and the whole machine is conducive to long-term stable operation;
- The module should be as far away as possible from power supply, transformer, high frequency wiring and other parts with large electromagnetic interference;
- High-frequency digital traces, high-frequency analog traces, and power traces must avoid under the module. If they really need to pass under the module, assuming that the module is soldered to the Top Layer, lay copper on the Top Layer of the contact part of the module (all copper and Good grounding), must be close to the digital part of the module and routed in the Bottom Layer;
- Assuming that the module is soldered or placed on the Top Layer, it is also wrong to randomly route the wires on the Bottom Layer or other layers, which will affect the stray and receiving sensitivity of the module to varying degrees;
- Assuming that there are devices with large electromagnetic interference around the module, it will greatly affect the performance of the module. According to the intensity of the interference, it is recommended to stay away from the module. If the situation permits, proper isolation and shielding can be done;
- Assuming that there are traces with large electromagnetic interference around the module (high-frequency digital, high-frequency analog, power wiring), it will also greatly affect the performance of the module. According to the intensity of the interference, it is recommended to stay away from the module. Isolation and shielding;
- Try to stay away from part of the physical layer that is also 2.4GHz TTL protocol, such as: USB3.0;
- The antenna installation structure has a great influence on the performance of the module. Make sure that the antenna is exposed and it is best to be vertically upward;
- When the module is installed inside the case, a high-quality antenna extension cable can be used to extend the antenna to the outside of the case;
- The antenna must not be installed inside the metal shell, which will greatly reduce the transmission distance.
FAQ
Communication range is too short
- When there is a straight-line communication obstacle, the communication distance will be attenuated accordingly;
- Temperature, humidity, and co-frequency interference will increase the communication packet loss rate;
- The ground absorbs and reflects radio waves, and the test results near the ground are poor;
- Sea water has a strong ability to absorb radio waves, so the seaside test results are poor;
- If there is a metal object near the antenna or placed in a metal shell, the signal attenuation will be very serious;
- The power register setting is wrong, the air speed setting is too high (the higher the air speed, the closer the distance);
- The low voltage of the power supply at room temperature is lower than the recommended value, the lower the voltage, the lower the power output;
- The matching degree of the antenna and the module is poor or the quality of the antenna itself is problematic.
Module is easy to damage
- Please check the power supply to ensure that it is within the recommended power supply voltage. If it exceeds the maximum value, the module will be permanently damaged;
- Please check the stability of the power supply, and the voltage should not fluctuate greatly and frequently;
- Please ensure anti-static operation during installation and use, and high-frequency components are electrostatically sensitive;
- Please ensure that the humidity during installation and use should not be too high, and some components are humidity sensitive devices;
- If there is no special requirement, it is not recommended to use it at too high or too low temperature.
BER (Bit Error Rate) is high
- There is co-frequency signal interference nearby, stay away from the interference source or modify the frequency and channel to avoid interference;
- Unsatisfactory power supply may also cause garbled codes. Ensure the reliability of the power supply;
- Poor or too long extension cables and feeders can also cause high bit error rates.
Soldering Operation Guidance
Reflow Soldering Temperature
Profile Feature | Sn-Pb Assembly | Pb-Free Assembly |
---|---|---|
Solder Paste | Sn63/Pb37 | Sn96.5/Ag3/Cu0.5 |
Preheat Temperature min (Tsmin) | 100℃ | 150℃ |
Preheat temperature max (Tsmax) | 150℃ | 200℃ |
Preheat Time (Tsmin to Tsmax)(ts) | 60-120 sec | 60-120 sec |
Average ramp-up rate(Tsmax to Tp) | 3℃/second max | 3℃/second max |
Liquidous Temperature (TL) | 183℃ | 217℃ |
Time(tL)Maintained Above(TL) | 60-90 sec | 30-90 sec |
Peak temperature(Tp) | 220-235℃ | 230-250℃ |
Aveage ramp-down rate(Tp to Tsmax) | 6℃/second max | 6℃/second max |
Time 25℃ to peak temperature | 6 minutes max | 8 minutes max |
Reflow Soldering Curve
Related Models
Model No.
| ****
Chip Scheme
| Frequency
Hz
| Tx power
dBm
| Distance
km
| ****
Package
| Size
mm
| ****
Interface
---|---|---|---|---|---|---|---
E220-400T22S| LLCC68|
433/470M| 22| 5| SMD| 1626| TTL
E220-400T30S| LLCC68|
433/470M| 30| 10| SMD| 2040.5| TTL
E220-900T22S| LLCC68|
868/915M| 22| 5| SMD| 1626| TTL
E220-900T30S| LLCC68|
868/915M| 30| 10| SMD| 2040.5| TTL
E220-400T22D| LLCC68|
433/470M| 22| 5| DIP| 2136| TTL
E220-400T30D| LLCC68|
433/470M| 30| 10| DIP| 2443| TTL
E220-900T22D| LLCC68|
868/915M| 22| 5| DIP| 2136| TTL
E220-900T30D| LLCC68|
868/915M| 30| 10| DIP| 2443| TTL
Antenna Recommendation
Antenna Recommendation
Antennas are an important role in the communication process, and often inferior antennas will have a great impact on the communication system. Therefore, our company recommends some antennas as supporting our company’s wireless modules with excellent performance and reasonable prices.
Model No.
|
Type
| Frequency
Hz
|
Interface
| Gain
dBi
| Height
mm
| Feeder
cm
|
Features
---|---|---|---|---|---|---|---
|
Rubber Antenna
| 868M|
SMA-J
|
2.0
|
52
|
–
| Ultra-short straight,
omnidirectional antenna
|
Rubber Antenna
| 868M|
SMA-J
|
3.0
|
210
|
–
| Bendable rubber,
omnidirectional antenna
|
Suction Antenna
|
868M
|
SMA-J
|
3.5
|
290
|
100
| Small suction antenna,
cost-effective
|
Rubber Antenna
|
915M
|
SMA-J
|
2.0
|
52
|
–
| Ultra-short straight,
omnidirectional antenna
|
Rubber Antenna
| 915M| SMA-J|
2.5
|
110
|
–
| Bendable rubber,
omnidirectional antenna
|
Rubber Antenna
| 915M| SMA-J|
3.0
|
210
|
–
| Bendable rubber,
omnidirectional antenna
|
Suction Antenna
| 915M|
SMA-J
|
3.5
|
290
|
100
| Small suction antenna,
cost-effective
Package for Bulk Order
Revision History
Version | Date | Description | Issued by |
---|---|---|---|
1.0 | 2020-8-28 | Original version |
About us
Technical support: support@cdebyte.com
Documents and RF Setting download link: www.ebyte.com
Thank you for using Ebyte products! Please contact us with any questions or
suggestions: info@cdebyte.com
————————————————————————————————-
Official hotline:028-61399028
Web: www.ebyte.com
Address: , Building B5, Mould Industrial Park, 199# Xiqu Ave, High-tech Zone,
Chengdu, 611731, Sichuan, China
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