Reyax RYW729x Raspberry EVB User manual

產品介紹
RYW729x_Raspberry_EVB
User Guide
14-APR-2022 56312E30
21mm*21mm*2.8mm

2
RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
1. Evaluation Board Introduction
RYW729x_Raspberry_EVB is a testing kit combined with Raspberry Pi, which allow users can easily
test and evaluate REYXA RYW7292/RYW7293.
2. Apperance
2.1 Front

3
RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
2.2 Back

4
RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
2.3 Assemble with Raspberry

5
RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
3. EVB Schematic
MODE_02
GP15_SSPO_CLK
GP16_I2C_SCL
GP02_UART2_RTS
GP17_I2C_SDA
C11
NC
CON7
CON1*3
1
2
3
C5
0.1uF
R33
NC
R45 0R
CON8
CON1*3
1
2
3
VDD_FEM
U1
RYW7292
VBAT_3.3V 32
AUXADCIN1
8AUXADCIN2
7AUXADCIN3
6
MODE_00
10
MODE_01
11
MODE_02
12
MODE_03
13
MODE_04
14
JTAG_TDO
5
JTAG_TDI
1
JTAG_TCK
2
JTAG_TMS
4JTAG_TRSTN
3
GND
15
SPI_FRM
21
SPI_CLK
22
SPI_MOSI
18 SPI_MISO
17
SPI_EIRQ
20
VDD_IO 33
RF_ANT
24
GP00_UART2_TX 27
GP01_UART2_RX 28
GP02_UART2_RTS 29
GP03_UART2_CTS 35
GP04_UART0_TX 36
GP05_UART0_RX 37
GP06_UART3_TX 38
GP07_UART3_RX 39
GP08_UART1_RX 40
GP11_UART1_TX 43
GP10_GPIO 42
GP09_GPIO 41
GP17_I2C_SDA 48
GP16_I2C_SCL 47
GP15_SSPO_CLK 46
GP14_SSPO_CS 45
GP13_SSPO_MOSI 44
GP12_SSPO_MISO 49
RST_EXT 50
GND 34
GND
9
GND
16
GND 26
GND
23
GND
25
GND 30
GND
19
VDD_FEM 31
GP10_GPIO
Q1
AO3418
1
2 3
Title
Size Document Number Rev
Date: Sheet of
<Doc> 1.1
RYW729x_EVB
Custom
1 1Sunday, April 03, 2022
GP08_UART1_RX
R46 0R
VBAT_3.3V
C6
0.1uF
CON9
CON1*3
1
2
3
VCC_1.8V
VDD_IO
GP02_UART2_RTS
L1
0
VBAT_3.3V
LED6
GREEN LED 0805
R37
680R
CON2 JTAG
1 2
3 4
5 6
7 8
910
11 12
13 14
15 16
17 18
19 20
R16 100R
Q2
AO3418
1
2 3
R17 100R
GP03_UART2_CTS
R18 100R
CON6
CON1*3
1
2
3
SPI_EIRQ
VDD_IO
R47 0R
B1
ALPS SKQGADE010
C3
4.7uF
RST_EXT
VCC_1.8V
VBAT_3.3V
LED5
RED LED 0805
R7 0R
R38
680R
SPI_CLK
C7
1nF
CON3
CON-1*5Pin
1
2
3
4
5
GP12_SSPO_MISO
JTAG_TDO
SPI_MISO
AUXADCIN1
AUXADCIN1
SPI_MOSI R50 0R
C1
4.7uF
R49 0R
GP14_SSPO_CS
R48 0R
C14
4.7uF
C8
1nF
GP13_SSPO_MOSI
AUXADCIN2
GP11_UART1_TX
GP11_UART1_TX
C9
1nF
VDD_FEM
AUXADCIN3
LED1 GREEN LED 0805
GP09_GPIO
VBAT_3.3V
R44 0R
GP10_GPIO
LED2 RED LED 0805
C2
4.7uF
LED4 RED LED 0805
R23 680R
R43 0R
GP09_GPIO
R24 680R
Q3 AO3418
1
23
GP08_UART1_RX
SPI_FRM
R42 0R
GP07_UART3_RX
SPI_FRM
R19 NC R20 NC
R25
4.7K
GP00_UART2_TX
R41 0R
GP06_UART3_TX
VDD_IO
SPI_MISO
VDD_IO
GP05_UART0_RX
CON4
USB
VCC 1
D- 2
D+ 3
GND 4
SHELL 5
C10
NC
SPI_MOSI
GP01_UART2_RX
R40 0R
VBAT_3.3V
GP04_UART0_TX
R26 680R
SPI_EIRQ
LED3 GREEN LED 0805
GP03_UART2_CTS
SPI_CLK
R10
0R
C15 4.7uF
R9
0R
R8
0R
JTAG_TDO
U10
ST LD39100PUR
PG
3GND
2EN
1
Vout 4
ADJ 5
Vin 6
GP00_UART2_TX
R35
12K
JTAG_TRSTN
R34
10K
C20
2.2uF C23
0.47uF
JTAG_TMS
+5V
U2 SN74LVC1T45DBVR
B
4
DIR
5GND 2
A3
VCCA 1
VCCB
6
串電阻至
vddio
hl
驗證
GP02_UART2_RTS
R54 0R
JTAG_TDI
GP04_UART0_TX
U3 SN74LVC1T45DBVR
B
4
DIR
5GND 2
A3
VCCA 1
VCCB
6
AUXADCIN2
VBAT_3.3V
GP06_UART3_TX
JTAG_TCK
AUXADCIN3
GP08_UART1_RX
MODE_04
GP10_GPIO
GP12_SSPO_MISO
MODE_03
U11
ST LD39100PUR
PG
3GND
2EN
1
Vout 4
ADJ 5
Vin 6
GP14_SSPO_CS
MODE_02
R53
30K
R36
10K
GP16_I2C_SCL
MODE_01
C21
2.2uF C24
0.47uF
VCC_3.3V
GP17_I2C_SDA
MODE_00
CON10 CON1*3
1
2
3
+5V
VDD_IO
GP15_SSPO_CLK
RST_EXT
CON-P1
SMA母座
R1 33K
R2 33K
R3 33K
R4 33K
R5 33K
GP01_UART2_RX
R6 33K
+5V
GP03_UART2_CTS
GP05_UART0_RX
GP07_UART3_RX
CON5 CON-2*4Pin
1 2
3 4
5 6
7 8
GP09_GPIO
GP11_UART1_TX
GP13_SSPO_MOSI
GP05_UART0_RX
GP06_UART3_TX
CON11 CON-2*6Pin
1
2
12
11
3
4
5
6
8
7
10
9
GP04_UART0_TX
GP07_UART3_RX
R29 0R
RST_POR
VDD_IO
VDD_IO
C16
0.1uF
VDD_IO
C4
0.1uF
D1 NC
R39 0R
GP00_UART2_TX
N952527
RST_E
C12
4.7uF
GP01_UART2_RX
JTAG_TRSTN
JTAG_TDI
VDD_IO
JTAG_TCK
JTAG_TMS
L2 0
C17
0.1uF
R21 0R
CON1
CON-2*11Pin
1 2
4
5 6
7 8
910
11 12
13 14
15 16
17 18
21 22
2019
3
R22 0R VBAT_3.3V
R27 36K
R28 36K
U9
ST LD39100PUR
PG
3GND
2EN
1
Vout 4
ADJ 5
Vin 6
R11 10K
R32
39K
R31
10K
C19
2.2uF C22
0.47uF
+5V
C13
22uF 0603
R12 10K
R13 10K
R14 10K
MODE_00
MODE_01
VDD_IO
MODE_03
D2 SDM03U40
MODE_04
U4
CP2102N-A01-GQFN24
D+
3
RI
1
VDD
6
D-
4
VBUS
8
GND
2
REGIN
7
RST
9
VIO
5
NC
10
GP3
11
GP2
12
GP1 13
GP0 14
SUS 15
VPP 16
SUS 17
CTS 18
RTS 19
RXD 20
TXD 21
DSR 22
DTR 23
DCD 24
GND 25
R15 10K
CON12
2*20pin Female
1 2
3 4
5 6
7 8
910
11 12
13
15
19
17
14
16
18
20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
RST_E

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RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
4. EVB test settings
Two pieces of EVB are required for communication test. The role of EVB1 is AP
mode, and the role of EVB2 is STA mode.
4-1. EVB Jumper setting
[EVB1 & EVB2] Jumper Switch = HLLLHH
4-2. Install the Antenna
4-3. Connect with ethernet and mirco usb power cable
CON11 CON-2*6Pin
1
2
12
11
3
4
5
6
8
7
10
9

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RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
5 PC Tool Download
5-1.
Download SSH tool https://mobaxterm.software.informer.com/20.2/
6 Tool Installation
6-1.
Install mobaxterm tool
6-2.
Open Mobaxterm and set up SSH,IP 192.168.100.1 ; port 22
6-3.
Account:pi Password:raspberry (Based on default settings)
6-4.
Download SDK 1.3.4 https://github.com/newracom/nrc7292_sw_pkg/tags
6-5.
For SDK installation method, please refer the file path
nrc7292_sw_pkg-1.3.4\nrc7292_sw_pkg-1.3.4\ README.md

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RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
7 Set up AP & STA
7-1.EVB 1 –AP mode
The network connect with NB/PC and EVB1(The file path is based on
SDK installation)
[Terminal] pi@raspberrypi:~ $ cd /home/pi/nrc_pkg/script/
[Terminal] pi@raspberrypi:~/nrc_pkg/script $ ./start.py 1 0 EU
(Select the region according to your actual application)
After the AP is established, the interface wlan0 will appear and display:
HaLow AP ready
Done.

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RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
7-2.EVB 2 –STA mode
The network connect with NB/PC and EVB2(The file path is based on
SDK installation)
[Terminal] pi@raspberrypi:~ $ cd /home/pi/nrc_pkg/script/
[Terminal] pi@raspberrypi:~/nrc_pkg/script $ ./start.py 0 0 EU
(Select the region according to your actual application)
After establishing the connection, the IP address will appear:
ip_address=192.168.200.38
IP assigned. HaLow STA ready
Done.
[Terminal] pi@raspberrypi:~/nrc_pkg/script $ ping 192.168.200.1

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RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
8 IPERF Testing
8-1. Set up IPERF Server in EVB 1
pi@raspberrypi:~ $ iperf3 -s -D
8-2. Set up Client UDP Connection in EVB 2
pi@raspberrypi:~ $ iperf3 -c 192.168.200.1 -u -b M -i 1 -t 10

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RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
8-3. Set up Client TCP Connection in EVB 2
pi@raspberrypi:~ $ iperf3 -c 192.168.200.1 -w 10M -i 1 -t 10
9 Bandwidth Adjustment on the AP side
9-1.
Go to file path:/script/conf, and choose the country you need
pi@raspberrypi:~ $ cd /home/pi/nrc_pkg/script/conf/
9-2.
Select the AP .conf file for use

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RYW729x_Raspberry_EVB User Guide
Copyright © 2022, REYAX TECHNOLOGY CO., LTD.
9-3.
Select the channel according to your requirements, the larger the
bandwidth, the faster the transmission speed.
speed.pi@raspberrypi:~/nrc_pkg/script/conf/EU $ vi ap_halow_open.conf
10 AMPDU Adjustment
10-1.
Go to the file path: /script
pi@raspberrypi:~ $ cd /home/pi/nrc_pkg/script
10-2.
Open start.py
pi@raspberrypi:~/nrc_pkg/script $ vi start.py
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