New High Power Router Asus RT-N12HP
ASUS Launches the RT-N12HP Wireless-N300 High-Power Router
Well-suited to home and small business customers with up to 300% wider Wi-Fi
coverage thanks to 9dBi antennas and integrated transmission power amplifier
http://www.asus.com/websites/global/...ide%20view.jpg
Quote:
To serve home and office users who need wider wireless coverage, the ASUS RT-N12HP high-power wireless-N300 router employs detachable
9dBi antennas and a unique hardware signal power amplifier. It extends Wi-Fi range by up to 300%, at the same time offering 3-in-1 utility as a router,
access point, and range extender. The user-friendly interface also supports up to four separate networks, with different bandwidth and access privileges.
High-power technology generates up to 300% wider wireless coverage
The RT-N12HP utilizes a custom hardware architecture that augments wireless transmission and signal quality with detachable 9dBi high-gain antennas and a
discrete signal power amplifier. These create a major increase in 802.11n wireless coverage, up to 300% longer-range compared to standard N300 routers.
At the same time, the improved hardware ensures a more stable and consistent signal. The RT-N12HP is therefore a highly viable choice for homes and small
businesses that want complete coverage via a single networking device.
Flexible EZ Switch 3-in-1 mode selection: router, access point, and range extender
Included in the user-friendly interface, EZ Switch offers a quick software tool that alternates between the RT-N12HP’s three main operating modes.
With a single touch, customers can select standard router usage, access point mode (adding Wi-Fi to an existing wired-only modem/router), or range
extender mode, where the RT-N12HP works in conjunction with another wireless router to expand coverage even further.
Multiple networks on one router for diverse guest access settings
The RT-N12HP supports up to four distinct networks, or SSIDs. It uses dynamic bandwidth allocation, giving administrators the ability to control network’s
access privileges and bandwidth quota. This means the primary network can operate alongside guest networks while experiencing minimal slowdown.
The RT-N12HP also allows customers to offer guests at home or the office internet access with graded privacy and usage rights. For example, the primary
host/administrator network can have full access rights with priority bandwidth, while guest SSIDs may have controlled access and bandwidth. The flexible
design means passwords do not have to be shared, and facilitates parental controls. Setup is once more via the intuitive interface, taking to accomplish.
2012/10/26 http://www.asus.com/News/Z6B6qLJtmfufBN9t/ :rolleyes:
Asus RT-N12HP - High Power Router
ASUS RT-N12HP Wireless-N High Power Router
Asus RT-N12HP High Power Wireless-N300 3-in-1 Router/AP/Range Extender
http://www.asus.com/websites/global/...yCH5fXz/09.jpg
- Multiple 3-in-1 Router/Access Point /Range Extender wireless modes
- Excellent wireless signal and antenna transmission for 300% wider signal coverage.
- 2 detachable external 9dbi high gain antennas with adjustable output power
- Powerful Online Multitasking at up to 30,000 Data Sessions
httš://www.asus.com/Networks/Wireless_Routers/RTN12HP/
Specifications
Network Standard |
IEEE 802.11b, IEEE 802.11g, IEEE 802.11n,
IEEE 802.3, IEEE 802.3u, IPv4, IPv6 |
Product Segment |
N300 complete networking; 300Mbps |
Antenna |
Detachable 9 dBi antenna x 2 *Antenna type will differ according
to local regulations and requirement in each country |
Data Rate |
802.11b : 1, 2, 5.5, 11Mbps
802.11g : 6,9,12,18,24,36,48,54Mbps
802.11n : up to 300Mbps |
Operating Frequency |
2.4G~2.4835GHz |
Encryption |
64-bit WEP, 128-bit WEP, WPA2-PSK, WPA-PSK,
WPA-Enterprise, WPA2-Enterprise, WPS support |
Management |
UPnP, IGMP v1/v2/v3, DNS Proxy, NTP Client,
DDNS, Port Triger, Virtual Server, DMZ |
VPN Support |
IPSec Pass-Throuth, PPTP Pass-Through
L2TP Pass-Through, PPTP server |
Ports |
1 x RJ45 for 10/100 BaseT for WAN,
4 x RJ45 for 10/100 BaseT for LAN |
Button |
WPS Button, Power Button |
LED Indicator |
PWR x 1, AIR x 1, WAN x 1, LAN x 4 |
Power Supply |
AC Input : 110V~240V(50~60Hz)
DC Output : 12 V with max. 1 A current |
Dimensions |
179 x 128 x 28 cm (WxDxH) |
Weight |
320 g |
Package Content |
RT-N12HP*1, RJ45 Cable*1, 9dbi Antenna*2
Warranty Card*1, Power Supply*1 |
httš://www.asus.com/Networks/Wireless_Routers/RTN12HP/#specifications ;)
FW_RT_N12HP_3004250 • GPL_RT_N12HP_3004250 • E7901_RTN12HP_Manual • Q6980_RT_N12HP_QSG
http://wl500g.info/attachment.php?attachmentid=9428
httš://support.asus.com/Download.aspx?SLanguage=en&m=RT-N12HP&p=11&s=2&os=8 :rolleyes:
Asus RT-N12HP - High Power Router
Quote:
Model: Asus RT-N12HP
CPU: BCM5357 300MHz
RAM: 32MB
Flash: 8MB
Broadcom - Kernel 2.6
PHP Code:
uname -a: Linux unknown 2.6.22.19 #23 Sat Oct 20 19:21:39 CEST 2012 mips GNU/Linux
---------------------------------------------------------------------------------------------
cpuinfo
Code:
system type : Broadcom BCM53572 chip rev 1 pkg 8
processor : 0
cpu model : MIPS 74K V4.9
BogoMIPS : 149.91
cpu MHz : 300
wait instruction : no
microsecond timers : yes
tlb_entries : 32
extra interrupt vector : no
hardware watchpoint : yes
ASEs implemented : mips16 dsp
shadow register sets : 1
VCED exceptions : not available
VCEI exceptions : not available
unaligned_instructions : 0
meminfo
Code:
MemTotal: 28696 kB
MemFree: 9172 kB
Buffers: 2568 kB
Cached: 7320 kB
SwapCached: 0 kB
Active: 5332 kB
Inactive: 6572 kB
HighTotal: 0 kB
HighFree: 0 kB
LowTotal: 28696 kB
LowFree: 9172 kB
SwapTotal: 0 kB
SwapFree: 0 kB
Dirty: 0 kB
Writeback: 0 kB
AnonPages: 2024 kB
Mapped: 1544 kB
Slab: 4016 kB
SReclaimable: 588 kB
SUnreclaim: 3428 kB
PageTables: 316 kB
NFS_Unstable: 0 kB
Bounce: 0 kB
WritebackTmp: 0 kB
CommitLimit: 14348 kB
Committed_AS: 5764 kB
VmallocTotal: 1015800 kB
VmallocUsed: 3112 kB
VmallocChunk: 1009696 kB
cpubench
Code:
This is CPU and memory benchmark for OpenWRT v0.6. This will then take some time... (typically 30-60 seconds on a 200MHz computer)
Overhead for getting time: 43us
Time to run memory bench: 4.45[secs]
Time to run computation of pi (2400 digits, 10 times): 9.85[secs]
Time to run computation of e (9009 digits): 8.52[secs]
Time to run float bench: 4.05[secs]
Total time: 26.9s
You can copy/paste the following line in the wiki table at: http://wiki.openwrt.org/HardwarePerformance
|| 1970-01-01 || ''Author'' || 4.4s || 9.9s || 8.5s || 4.1s || v0.6 || ''OS'' || ''DeviceModel'' || ''CPU model'' ||