Laird designs and manufactures customized, performance-critical products for
wireless and other advanced electronics applications.
About Laird
Laird is a global technology business focused on enabling wireless communication and smart systems, and providing components and systems
that protect electronics. Laird operates through two divisions, Wireless Systems and Performance Materials. Wireless Systems solutions include
antenna systems, embedded wireless modules, telematics products and wireless automation and control solutions. Performance Materials
solutions include electromagnetic interference shielding, thermal management and signal integrity products. As a leader in the design, supply and
support of innovative technology, our products allow people, organisations, machines and applications to connect effectively, helping to build a
world where smart technology transforms the way of life. Custom products are supplied to major sectors of the electronics industry including the
handset, telecommunications, IT, automotive, public safety, consumer, medical, rail, mining and industrial markets. Providing value and
differentiation to our customers though innovation, reliable fulfilment and speed, Laird PLC is listed and headquartered in London, and employs
over 9,000 people in more than 58 facilities located in 18 countries.
A Brief Introduction to Backhaul
Backhaul consists of carriers, or companies, who set up wireless Internet systems. These systems offer a central hotspot that allows subscribers
within a limited coverage area to connect to the hotspot through a wireless connection. Backhaul comprises of a wireless network that covers
protocols such as WLAN, WiMAX, Base Station and Point-to-Point. Backhaul antennas are typically used for fixed point wireless at a location.
Depend on Laird
Laird’s Backhaul antennas meet stringent compliance standards and are competitively priced. Its worldwide engineering teams, using proprietary
artificial intelligence antenna design software, create antenna designs with the tightest patterns and highest gain in the most compact package.
With Laird’s proven expertise in high-capacity manufacturing operations, its Backhaul product line exhibits a good value/performance ratio.
Benefits of Backhaul Technology
Some benefits of using Laird’s Backhaul antennas include:
Instant Internet connection anywhere around a hotspot
Quick deployment
Cost-effective solutions
• Variety of VPOL and HPOL configurations
Wideband performance
Well suited for point-to-point or point-to-multipoint applications
WiMAX Internal Antennas
Laird’s internal wireless device antennas feature wide bandwidth to enhance the performance and application of portable wireless devices based
on standards such as 802.11 and Bluetooth. The antennas are specifically designed to be embedded inside devices for aesthetically pleasing
integration with high durability.
PART NUMBER
FREQUENCY
(MHz)
ANTENNA
TYPE
PATTERN TYPE
VSWR
GAIN (dBl)
POLAR-
IZATION
DIMENSIONS (mm)
LENGTH
WIDTH
CONNECTOR TYPES
MOUNT STYLE
INDOOR/OUTDOOR
EMX2360A1-10UFL
EMX2360A1-15UFL
EMX2360A1-20UFL
EMX2360A1-25UFL
2300-6000
2300-6000
2300-6000
2300-6000
Embedded
Embedded
Embedded
Embedded
Omnidirectional
Omnidirectional
Omnidirectional
Omnidirectional
2
2
2
2
4 dBi
(2.3-2.7 GHz),
2.1 dBi
(3.3 GHz)
and 4 dBi
(4.9-5.875 GHz)
Vertical
Vertical
Vertical
Vertical
2
2
2
2
0.65
0.65
0.65
0.65
IPEX MHF
IPEX MHF
IPEX MHF
IPEX MHF
Surface Mount
Surface Mount
Surface Mount
Surface Mount
Indoor
Indoor
Indoor
Indoor
Telecom - Backhaul Antennas
General
•
CP24-12
•
ES24-14-echo
General antennas, otherwise known as Client Antennas, are used at a client site. They are typically directional antennas with gains from 5 dBi to 17 dBi.
Due to typically poor site infrastructure at the client locations, these antennas need to be low wind loading. These antennas have either have VPOL or
HPOL capability, contributing to balanced performance in each polarity.
PART NUMBER
FREQUENCY
(MHz)
ANTENNA TYPE
PATTERN TYPE
VSWR
GAIN
(dBi)
BEAM WIDTH (DEG)
EL
AZ
POLAR-
IZATION
DIMENSIONS (mm)
LENGTH WIDTH HT
DIA
CONNECTOR
TYPES
MOUNT
STYLE
INDOOR/
OUTDOOR
CP24-12
ES24-14
ES58-17
IN5RD Series
IN7-3RD Series
RD2458-5-NM
2400-2485
2400-2485
5725-5850
5150-5850
698-806
2400/5000
Circular Polarized
Echo (Backfire)
Echo (Backfire)
Indoor
Indoor
Dipole
Dipole
Indoor
Indoor
LP
Mini-Directional
Mesh Kit
Directional
Directional
Directional
Omni-directional
Omni-directional
Omni-directional
Omni-directional
Omni-directional
Omni-directional
Directional
Directional
Omni-directional
1.5
1.5
1.5
1.5
1.5
2
2
1.5
1.5
1.5
1.5
1.5
12
14
17
5
3
2
2
3
2.2
9
–
5,7,9
37
26
25
50
50
90
90
–
–
55
–
–
37
26
25
360
360
360
360
360
360
90
–
–
Circular
H/V
H/V
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
8.5
–
–
–
6.2
7.6
7.6
–
–
15.5
–
–
–
–
2.5
0.6
0.05
0.05
3.4
4.25
10.5
–
–
–
–
–
–
–
–
–
–
–
2.75
–
–
8
10.24
10
–
–
–
–
7.32
7.25
–
–
Type N(f)
Type N(f)
Type N(f)
Mast
Mast
Mast
Outdoor
Outdoor
Outdoor
Outdoor
Outdoor
Indoor
Outdoor
Indoor
Indoor
Outdoor
Outdoor
Outdoor
Type RSMA, RTNC Rubber Duck
Type SMA, RSMA Rubber Duck
Type N(m), RSMA,
RTNC, RTNC-W, Rubber Duck
SMA, TNC
Type N(m), RTNC Rubber Duck
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type MC, MMCX,
RMMCX, RSMA,
RTNC, UFL
Surface
Surface
Mast
Mast
Mast
RD2458-5-OTDR-NM 2400/5000
IN800/2700-5
IN800/5900-5
LP800-2500-9-NF
MD24-12
MK24 Series
806/2700
800/5900
800/2400
2400-2485
2400-2485
Die Cast Enclosure
The Die-Cast Enclosure (DCE) series offers a directional VPOL panel antenna that is contained within a die-cast aluminum enclosure. The enclosure adds to
the long life of the antenna in outdoor environments. The powder coat paint over aluminum construction offers unsurpassed resistance to corrosion. The
die-cast enclosure has extra heavy duty mounting flanges for reliable mounting to poles or surface mounting to walls along with the inclusion of seven
engineered hole knockouts which allow for many different configurations of connectors and feedthrus without the need for drilling holes.
PART NUMBER
FREQUENCY
(MHz)
VSWR
GAIN
(dBi)
DIMENSIONS (mm)
LENGTH
WIDTH
HT
CONNECTOR TYPES
DCE10D-2419-NF
DCE10D-4924-NF
DCE10D-912-NF
DCE10I-2416-FSMF
DCE10I-2451-FSMF
DCE10I-4919-FSMF
DCE10I-985-FSMF
DCE-ANT2314
DCE-ANT2412-MC
DCE-ANT2458-MC
DCE-ANT24KIT-MMCX
DCE-ANT3516
DCE-ANT5819-7x6x2
DCE-ANT5819-MC
2400/2500
4940-5850
902-928
2400/2500
2400/5000
4940-5850
902-928
2300/2500
2400/2500
2400/5000
2400/2500
3300/3500
4940-5850
4940-5850
1.5
1.5
1.5
1.5
2
1.7
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
19
24
12
16
12
19
8
14
12
12,15
12
16
19
19
10
10
10
10
10
10
10
7
7
7
7
7
7
7
2
2
2
2
2
2
2
2
2
2
2
2
2
2
10
10
10
10
10
10
10
6
6
6
6
6
6
6
Type N(f)
Type N(f)
Type N(f)
Type FSMF, MCM, MMCXP, RMMXP, RSMAM, RTNM, SSMB, UFL
Type FSMF, MCM, MMCXP, RMMXP, RSMAM, RTNM, SSMB, UFL
Type FSMF, MCM, MMCXP, RMMXP, RSMAM, RTNM, SSMB, UFL
Type FSMF, MCM, MMCXP, RMMXP, RSMAM, RTNM, SSMB, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, SSMB, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
Type MMCX, RMMCX, RSMA, RTNC, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, SSMB, UFL
–
Type MC, MMCX, RMMCX, RSMA, RTNC, SSMB, UFL
•
DCE 7x6x2
Vagi
®
/Yagi Series
The Vagi/Yagi Series are rugged, easy-to-install, high-gain directional antennas used in a wide variety of wireless systems where low cost, good
performance and low wind loading are important factors. They include either a VPOL or HPOL configuration, along with a 1.5 VSWR as well. These
antennas can be pole mounted in outdoor environments.
PART NUMBER
FREQUENCY
(MHz)
GAIN
(dBi)
BANDWIDTH (DEG)
AZ
DIMENSIONS (mm)
LENGTH
CONNECTOR TYPES
VA24-16F
2400-2485
2500-2700
860-960
860-960
16
16
9,11,13
11,13
25 (E) / 30 (AZ)
25 (E) / 30 (AZ)
53, 50,30
45,35
22
22
19.7
33.5,46
Type N(f), N (m), RTNC
Type N(f), N (m)
Type N(f), RTNC
Type N(f)
•
Vagi VA25-16
•
YA9W
VA25-16F
YA9 Series
YA9W Series
2
| TELECOM BACKHAUL ANTENNA SOLUTIONS
Point-to-Point
Point-to-Point antennas are outdoor directional antennas that are used to connect two fixed points with a high bandwidth connection. Typically offering
900 MHz, 2.5 GHz, 3.5 GHz, or 5 GHz links, typically from less than one mile to over 30 miles. The antenna provides both single and dual polarity with high
gain and tight beamwidths that prevent interference and allow for longer distance links. Wide band performance offers higher bandwidths in wide band
multichannel systems.
PART NUMBER
FREQUENCY
(MHz)
ANTENNA
TYPE
VSWR
GAIN
(dBi)
BEAM WIDTH (DEG)
EL
AZ
POLAR-
IZATION
DIMENSIONS (mm)
LENGTH
WIDTH
DIA
CONNECTOR TYPES
DC23HDPF23-PF
DC24-24NF
DC24BP-23P Series
DC24HDPF1P
DC25HDPF2P
DC35-26P-NF
DC57-28
DC58-29
GD24 Series
GD24BP Series
GD25 Series
GD35 Series
GD53 Series
GD57 Series
GD58 Series
GD5W Series
GD9 Series
GD9-DC15-NF
HDDA3W-25-SP
HDDA3W-25-DP
HDDA3W-29-SP
HDDA3W-29-DP
HDDA5W-29-SP
HDDA5W-29-DP2
HDDA5W-32-SP
HDDA5W-32-DP2
2050-2300
2400-2485
2400-2485
2400-2485
2500-2700
3300/3500
5470-5725
5725-5850
2400-2485
2400-2485
2500-2700
3300/3500
5150-5350
5470-5725
5725-5850
4900-5850
900-928
900-928
3300-3800
3300-3800
3300-3800
3300-3800
4900-5875
4940-5850
4900-5875
4940-5850
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Grid
Parabolic Dish
Parabolic Dish
Parabolic Dish
Parabolic Dish
Parabolic Dish
Parabolic Dish
Parabolic Dish
Parabolic Dish
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.8
1.5
1.8
1.5
1.8
1.5
1.8
23
24
23
24
24
26
28
29
–
8
8
8
8
–
–
–
–
8
8
8
8
–
–
–
21,17,10
21,17,10
21,17,10
16,12,7
10
6
4
–
31
31
8.5
8.5
6
6
6
6
4
4
Vertical
Vertical
Vertical
Vertical
H or V
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
H/V
Vertical
H/V
Vertical
H/V
Vertical
H/V
–
42
42
42
42
–
–
–
16,24,36
16,24,36
16,24,36
16,24,36
15.7,24,36
15.7,24,36
15.7,24,36
15.7,24,36
–
42
–
–
–
–
–
–
–
–
–
24
24
24
24
–
–
–
12,16.5,28.5
12,16.5,28.5
12,16.5,28.5
12,16.5,28.5
11.8,16.8,28.5
11.8,16.8,28.5
11.8,16.8,28.5
11.8,16.8,28.5
–
24
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
4
–
25.5
25.5
36.5
36.5
25.5
25.5
36.5
36.5
Type N(f)
Type N(f)
Type N(f)
Type N(m), N(f), RSMA, RTNC
Type N(m), N(f)
Type N(m), N(f)
Type N(f)
Type N(f)
Type N(m), N(f), RSMA, RTNC
Type N(f)
Type N(m), N(f)
Type N(m), N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f), N(m)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
•
HDDA5W
15,19,24 17,11,8
14,18,23 17,11,8
15,19,24 17,11,8
17,20,25 13,8,6
21,25,28
21,25,28
22,26,29
21,25,28
15,18
15
25
25
29
29
29
29
32
32
11
6
6
–
22,16.5
22
8.5
8.5
6
6
6
6
4
4
•
HDDA3W-29
•
GD5W
Omnidirectional
Omnidirectional antennas are outdoor collinear (stick) antennas that service a large, 360 degree area through the means of an omnidirectionl pattern
with a 1.5 VSWR. They are the most economical solution for access point or for covering sparsely populated areas. Ranges are typically from five to a
maximum of eight miles.
PART NUMBER
FREQUENCY
(MHz)
GAIN
(dBi)
EL
BEAM WIDTH (DEG)
AZ
POLAR-
IZATION
DIMENSIONS (mm)
LENGTH
WIDTH
HT
CONNECTOR TYPES
OD24 Series
OD24-
Downtilt Series
OD24-7D5
OD24-9D7
OD24-9-WB
OD24M Series
OD49-11D1
OD49M-11D1
OD49M-6
OD58-12
OD58M-12
OD5W-11
OD5WM Series
OD9-11D1
OD9 Series
ODH24 Series
ODH9-9
S3307BPNF
OF365013D3-FNF
WTS2333C-FRSMM
2400-2485
2400-2485
2400-2485
2400-2485
2400/2500
2400-2485
4940-4990
4940-4990
4940-4990
5470-5850
5470-5850
4900-5850
5150-5850
860-960
860-960
2400-2485
900-928
3300/3500
3650-3700
3300-3900
5,9,12
7,9
7
9
9
5,7,9,12
11
11
6
12
12
11
6,8
11
5,6,8,11
9, 13
9
9.0
13.0
2.7
14,7
18,14
18
14
14
–
–
5
8.5
–
7
–
8.5
7
–
20, 7
18
8
4.8
90
360
360
360
360
360
360
360
360
360
360
360
360
360
360
360
360
360
Omni-directional
Omni-directional
360
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Horizontal
Horizontal
Vertical
Vertical
Vertical
27, 48
21
21
27
27
–
–
31
7
–
27.5
–
19
–
–
49,27
62
28.2
43.1
3.78
–
–
–
–
–
0.6
–
0.6
0.5
–
0.6
–
0.6
–
–
4
8
–
–
0.37
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
1
2
1.7
1.3
–
Type N(f), N(m)
Type N(f), N(m)
Type N(f), N(m)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type N(f), N(m)
Type N(f)
Type N(f)
Type N(f), N(m), RTNC
Type N(f)
Type N(f)
Type N(f)
Type N(f)
Type RPSMA
•
s24517pth
•
OD24-9
•
OD58-12
•
OF365013D4-FNF_BW
•
OD24-7
3
Sector
Sector antennas are used to sectorize the coverage area in 60, 90, or 120 degree bandwidths, with tighter and wider coverage available. They are typically higher
gain and are less prone to interference, and provide a directional pattern with 1.5 VSWR. These antennas include a Type N (female) connector and can be pole
mounted in outdoor environments.
PART NUMBER
FREQUENCY
(MHz)
GAIN
(dBl)
BEAMWIDTH (DEG)
EL
AZ
POLARIZATION
DIMENSIONS (mm)
LENGTH
WIDTH
HEIGHT
SA24 Series
SA24-WB Series
SA9-120-13
SAH24 Series
SAH35-90-16
SAH58-120-16-WB
SAH9-120-12
SO24-120x3-15
J23014V00-120N
J23016S00-90N
J23017S00-65N
SKS230065-18N-001
SKS230090-16N-001
J34014V01-90N
J33017S00-90N
J33017S00-65N
J34016V01-60N
J51014V00-120N
J51016V00-90N
J51017V00-60N
S49016120PNF
S4901790PNF
SJS515090-16
2400-2485
2300/2500
860-960
2400-2485
3300/3500
5470-5850
900-928
2400-2485
2300/2500
2300/2500
2300/2500
2300-2700
2300-2700
3300/3500
3300/3500
3300/3500
3300/3500
4900-5900
4900-5900
4900-5900
4900-5850
4900-5850
5150-5850
9,12,14
16,17, 20
12
12,16
17
16,17
12
15
15.5
16.5
18.0
18
16.5
16.5
16.5
17.0
17.5
15.0
16.0
17.5
15.5
16.5
16.25
30,10
7,8,9
16
18,7
6.5
6
15
2
7
7
7
5.5-6.5
5.5-6.5
7
7
7
7
7
7
7
5.5
5.5
6.5
90/120/180
45,60,90,120
120
120
90
90,120
120
360
120
90
65
65
90
90
90
65
60
120
90
60
15
7
90
Vertical
Vertical
Vertical
Horizontal
Horizontal
Horizontal
Horizontal
Vertical
Vertical
Dual Slant 45
Dual Slant 45
+45° and -45°
+45° and -45°
Vertical
Dual Slant 45
Dual Slant 45
Vertical
Vertical
Vertical
Vertical
Vertical
Vertical
Dual Linear,
+45°/-45°
10,40
33.5,34
5.3
23
35.5
22
62
40
39.9
40
40.1
44.9
44.9
30.2
28.2
28.2
30.2
18.2
18.2
18.2
24.6
24.6
21.9
6.5,10.25
6.5,7
11
4
4.7
5
8
6.5
4.3
8.2
6.3
6.5
6.5
5.9
6.3
4.8
5.9
4.7
4.7
4.7
2
2
2.6
2.5,7
2.5
5
1
2.4
8
2
–
8
4.5
4
2.9
2.9
3.4
11.3
2.7
3.4
2.9
3.1
2.8
2.7
2.7
5.7
•
J51016VOO-90N90N
•
SAH58
•
SA24
•
J23014V00-120N
RooTenna
®
RooTenna® panel antennas are designed to allow integration of customers’ radio equipment inside a weatherproof compartment. The radio com-
partment is big enough to house transceivers, amplifiers, and other electronic equipment. The antennas themselves offer a directional pattern with 1.5
VSWR, and can be either surface or wall mounted in outdoor environments.
PART NUMBER
FREQUENCY
(MHz)
GAIN (dBl)
BEAMWIDTH (DEG)
EL
AZ
POLARIZATION
DIMENSIONS (mm)
LENGTH WIDTH HEIGHT
CONNECTOR TYPES
R2T24-19
R2T2458LW
R2T2458W
R2T24LW-15
R2T24W-15
R2T58-24
R2T58LW-19
R2T58W-19
R2T9-12
2400/2500
2400/5000
2400/5000
2300/2500
2300/2500
4940-5850
4940-5850
4940-5850
900-928
19
12
12
15
15
24
19
19
12
19
43/22
43/22
30
30
9
15
15
50
16
43/22
43/22
30
30
9
15
15
45
H or V
H or V
H or V
H or V
H or V
H or V
H or V
H or V
H or V
18.5
10.75
10.75
10.75
10.75
16.25
10.75
10.75
18.5
2.5
2.6
3.5
3.5
3.5
1.0
2.6
3.5
2.5
16.8
10.75
10.75
10.75
10.75
14.75
10.75
10.75
16.8
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL, NHK
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
Type MC, MMCX, RMMCX, RSMA, RTNC, UFL
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R2T2458 RooTennas
Panel
Flat panel directional antennas offer high gain with a 1.5 VSWR in a thin low profile package. The antennas are constructed of a gray color UV resistant
ABS plastic radome with an aluminum backplate. The antenna can be used in horizontal or vertical polarization, and can be surface, pole, or wall
[i=s]This post was last edited by bluefox0919 on 2019-5-27 11:03[/i] This is my motor control circuit. There are 4 groups of identical circuits, controlling 4 motors respectively. CN1 is connected to ...
In order to save costs, the original DCDC is now replaced by a discrete device circuit
As shownNow I encounter a problem during debugging. RD0 will burn out. I have measured the current of AR_IN at th...
On the one hand, they are "buying, buying, buying", and on the other hand, they are all idle
Source: Zinc Scale
There are more and more idle items in the homes of contemporary young people.
The "2021 ...
I felt the tremors clearly a few minutes ago. The whole bed was shaking and I almost fainted. It lasted for quite a long time. I checked the news. There was an earthquake in Taitung County, Taiwan. Th...
Many friends who use National Technology MCU have raised some questions about USB drivers:1. The development board on the National Technology official website has the NS_LINK debugging tool on board, ...
[b]1[font=宋体]Blinking Light Design[/font][/b][b][font=宋体]1. Project Background[/font][/b][align=left]LED (Light Emitting Diode), a solid-state semiconductor device that can convert electrical energy i...
Wireless sensor network is a network composed of a large number of micro sensor nodes through wireless self-organization. It integrates three technologies: sensors, micro-electromechanical sy...[Details]
Recently, Phoenix Optics explained the termination of the major asset reorganization. It said that the current business direction of the listed company is optoelectronic products and solutions for Io...[Details]
1. Overview
Over-the-Air Technology (OTA) is a technology that remotely manages mobile terminal devices and SIM card data through the air interface of mobile communications. This a...[Details]
In actual power systems, the voltage generated by three-phase generators is often not an ideal sine wave. Due to the nonlinearity of the magnetic circuit, the excitation current of transformers and...[Details]
One of the biggest problems facing solar photovoltaic power generation is how to make full use of power generation equipment in the absence of sunlight. This problem has been solved in Spain: a lar...[Details]
The phase profile imprinted by a spatial light modulator (SLM) and the resulting light intensity profile in the capture plane. Image source: Physicist Organization Network Want to know if a very ...[Details]
//Serial port initialization //Baud rate is 9600, 8-bit data format, no checksum, one stop bit, send in query mode void SCI_Init(void) { SCI0BDH = 0x00; SCI0BDL = 0x41; //Baud rate = BUSCLK/(...[Details]
I will not go into details about the concepts of display resolution, pixels, and clarity. Let's talk about the unfamiliar concept of pitch: it refers to the distance between the centers of two pixe...[Details]
Excerpted from centennialcentral Avnet, a Fortune 200 company, has celebrated its 100th anniversary, and its milestones over the course of its 100-year history resemble the most disruptive areas of...[Details]
There are generally several ways to connect the inverter to the PLC:
① Use the analog output module of the PLC to control the inverter. The analog output module of the PLC outputs a 0-5V volta...[Details]
Recently, the chip company Horizon Robotics split its AIoT business team and established a wholly-owned subsidiary, Digua
Robotics
. Yu Kai, the founder and CEO of Horizon Robotics, serves ...[Details]
A reader with the email address xie66***si@163.com asked: I have a wireless router installed at home, but recently it seems that someone has been stealing our network, causing the network to become si...[Details]
The clock is an essential component of many systems such as PCs, printers, video converters, high-end workstations and various communication products. CY22150 is a new programmable clock generator ...[Details]
1. Make a minimum system board: If you have never done ARM development, it is recommended that you do not be greedy and complete all applications at the beginning, because the startup method of ARM is...[Details]
Embedded engineers are often very good at using microcontrollers, ARM, DSP, and FPGA. However, once they start system design and power the power system, although they can make their carefully desig...[Details]
Power technology
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