| Disponibilidad: | En stock | Condición: | nuevo |
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| Envío: | starting at $0.00 | Garantía: | 2Yrs |
Thor Emisión de Alta Densidad Codificador H264 H-HDPerformux-XX, específicamente dise?ada para manejar hasta 24 entradas HDMI y la salida a través de 1MPTS o 24SPTS. Esta unidad dispone de un total de funcionamiento de la interfaz gráfica de usuario que Thor ha dise?ado para ayudar a navegar por la creación de todos sus Flujos H. 264 Mpeg 1 Layer 2 de Audio. Además dispone de una única salida ASI que será un reflejo de la MPTS de salida. Específicamente con el código QR, el Logotipo, y el OSD de inserción para los operadores de cable que requieren esta característica. Además, se ha PID reasignación, PCR y PSDI ajuste y la edición. Este 1ru a lo de la unidad puede sustituir a toda una cabecera con la alta densidad de 24 entrada HDMI chasis con la operación fácil y Thor Difusión líder de garantía y soporte técnico gratuito de nuestro laboratorio en Los Ángeles.
H-HDPerformux-4 de 4 canales HDMI a IP H. 264 encoder - streamer
H-HDPerformux-8 de 8 canales HDMI a IP H. 264 encoder - streamer
H-HDPerformux-12 12 canal de HDMI a IP H. 264 encoder - streamer
H-HDPerformux-24 24 canal de HDMI a IP H. 264 encoder - streamer
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De entrada |
4/8/12/24 entradas HDMI (dependiente del modelo) |
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Video |
Resolución |
De entrada |
1920×1080_60P, 1920×1080_60i, 1920×1080_50P, 1920×1080_50i, 1280×720_60P, 1280×720_50P, 720×576_50i, 720×480_60i, |
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Salida |
1920×1080_30P, 1920×1080_25P, 1280×720_30P, 1280×720_25P, 720×576_25P, 720×480_30P, |
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Codificación |
MPEG-4 AVC/H. 264 |
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Tasa de bits |
1Mbps~13Mbps cada canal |
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Control De Velocidad |
CBR/VBR |
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Estructura de GOP |
IP...P (P Marco de ajuste, B sin Marco ) |
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Audio |
Codificación |
MPEG-1 Capa 2 |
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Frecuencia de muestreo |
48 khz |
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Resolución |
24-bits |
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La Ganancia De Audio |
Ajustable de 0 a 255 |
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Tasa de bits |
64 kbps,128 kbps,192 kbps,224kbps,256 kbps,320 kbps,384 kbps. |
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Multiplexación |
Máximo PID La reasignación de |
180 de entrada por canal |
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La función |
PID reasignación ( automática o manualmente) |
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Precisa ajuste de PCR |
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Generar PSI/ SI la tabla de forma automática |
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Corriente de salida |
16 MPTS de salida a través de UDP y RTP/RTSP como espejo de 16 DVB-C transportistas, 8 MPTS de salida a través de UDP y RTP/RTSP como espejo de 8 portadores de DVB-T(Opcional) 1*1000M Base-T Ethernet interfaz |
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La función del sistema |
La gestión de la red (WEB) |
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Inglés |
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Ethernet actualización de software |
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Miscelánea |
Dimensión (W×L×H) |
482×440×44 mm |
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Peso aprox |
8kg |
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Medio ambiente |
0~45(en funcionamiento)-20~80(Almacenamiento) |
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Requisitos de alimentación |
CA 110V? 10%, 50/60Hz, AC 220 ? 10%, 50/60Hz |
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El consumo de energía |
70W |
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Hello, we only have HEVC H.265 with HDMI inputs right now
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would you use something like this with converters?
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H-HDPerformux-4+ 4 channel HDMI to IP HEVC H.264&H.265 Encoder Streamer
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You could potentially use converters so long that they would be compatible with all the needs of transmitting data.
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I assume you have 3GSDI feeds?
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yes
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so you'd have to make sure the converter can do 3G and HDMI to 1080p60
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Even then, no telling if that would effect the unit
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as far as timing? frame loss?
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yeah all that. because a lot of those 3rd party converters will take short cuts to work, but not exactly a professional solution
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so its a coin flip honestly.
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so buy the cheapest converter I can find
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so no encoders with native SDI input?
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There might be some on the market, but we only have HDMI input models avaialble
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They work really well, we just sold a ton of 24 HDMI input models, super high density
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The 100m is a maximum CAT5 that can run.
If you do not have a link then you need to put an ethernet switch somewhere in between, or you can use point to point optical transceivers like those below, by using them you can extend Ethenet of many Km:
There is no CAT 5 amplifier, the ethernet doesn't have power like CATV RF
No, As I mentioned the Ethernet can not be stronger and weaker, it is a data stream signal
POE Switch does not do anything for this, POE switch can send DC power over the CAT 5 to power POE device like Camera, so you do not have to use external DC power supply, but it doesn't extend the range of the ethernet signal.
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I want to implement IPTV, we will be a small ISP that will start soon
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We will reach our clients through fiber optics to their homes
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We want to mount the necessary equipment on our node to offer IPTV service.
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| But we don't know at all what equipment we need |
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We want to contract legal channels such as FOX, HBO, Discovery, etc. to be able to offer our clients these packages.
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| But first we need the equipment. |
| What equipment could they offer us? |
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Could we have a small meeting by videoconference?
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| I could send you the invitation is through Microsoft Teams, you can access it from the web browser of your cell phone or computer. |
| We only want to know about the IPTV equipment solutions that they could offer us. |
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Do you have your own headend? Where are the sources coming from?
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We have lot of encoders for IPTV, but distribution is another process.
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We have HDMI or SDI, but we need to know the protocol fro video, MPEG2 or H264; then the streaming protocol like RTP UDP RTMP etc there are many variations in the resolution and audio codecs as well we need to know more information about
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ok currently we don't have the headend ready, we are under construction.
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We want to search for sources, but we want our sources completely legal so as not to have problems of transmission by content, but we do not know with whom we can talk about it.
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Well that starts with which country you are in, you need to speak with somebody in the government who can help you a little, or contact the cable TV companies
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Essentially you will have several issues, from building the headend, getting access to those channels, and then distribution. Of which you will need make some sort of encryption effort, supply customer with set top boxes, and also lease the fiber. If this is all in one location or building then it is easier.
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I do not want to retransmit a signal from cable companies.
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| I want to buy my own signal and pass it right to my clients. |
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Oh I see, then you will have to contact those companies directly, setup agreements and lease out those channels like any other cable company
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Very good chance that they can let you access those channels direct from satellites, so you would pay a fee, get an access card, or code, and then you can use an IRD with CAS to get that data from satellites.
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However I will mention our company does not get involved in any of that. We make and sell headend equipment.
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Unfortunately, it is impossible to distribute multicast streams over
Wifi reliably, Wifi doesn't have that ability and doesn't support it.
It needs to be distributed over a copper LAN network
You can set up a unicast stream and instead of the multicast IP
address, place the destination (decoder/receiver / PC ) IP address )
but the encoder Data IP address needs to be on the same Subnet as a
receiving device.
So for example, if the receiving PC address is 192.168.2.100, the data
IP also needs to be on 192.168.2.XX network.
Please note the NMS and Data IP Must be on the different subnets
I’m looking at your systems here… https://thorbroadcast.com/products/pro-dvb-encoders#
And trying to get a sense of what we would need to make our office video distribution work.
We’d like 16 (or more) discreet video channels (a mix of HDMI and SDI) to transmit through the office to 10-12 individual desks – where the user at the desk can change the channel to whatever source they would like to watch.
KInda need an inhouse cable system over IP.
Can the encoders be combined? A 4 HDMI encoder working along side of a 4 SDI encoder?
Can this system run on a standard switch configuration? Or does it need its own network?
How would I get a quote for a system?
"UDP (User Datagram Protocol) multicast is a type of IP multicast that uses UDP as the transport protocol. It allows for the efficient one-to-many distribution of data to multiple receivers on a network. This is achieved by sending a single copy of the data to a special IP address called a "multicast group" that represents the group of receivers that should receive the data.
To use UDP multicast, a sender sends data to the multicast group IP address, and any device that has joined that group will receive the data. The sender does not need to know the individual IP addresses of the receivers, only the multicast group address.
Receivers can join and leave a multicast group at any time using a process called "multicast group membership". This is typically done using the Internet Group Management Protocol (IGMP) or the Multicast Listener Discovery (MLD) protocol.
UDP multicast is widely used in a variety of applications such as streaming video, online gaming, and software updates. "
H.264, also known as MPEG-4 AVC (Advanced Video Coding), is a video compression standard that is used to encode video data in a digital format. It is widely used in video compression for a variety of applications, including streaming video, television broadcasting, and video conferencing.
H.264 has several different "profiles" that determine the set of features that are supported by the codec. The most commonly used profiles are:
Baseline Profile (BP): This profile is designed for low-complexity devices such as cell phones and is the most widely supported profile by consumer devices.
Main Profile (MP): This profile is designed for standard-definition (SD) video and provides a higher level of compression than the Baseline Profile.
High Profile (HiP): This profile is designed for high-definition (HD) video and provides a higher level of compression than the Main Profile.
High 10 Profile (Hi10P): This profile is designed for high-definition (HD) video with 10-bit color depth and provides a higher level of compression than the High Profile.
High 4:2:2 Profile (Hi422P): This profile is designed for high-definition (HD) video with 4:2:2 chroma subsampling and provides a higher level of compression than the High Profile.
Each profile is designed to address specific use cases and requirements, therefore the main advantage of one profile over another is the level of compression, video quality and the specific features and capabilities it supports.
Are you familiar with the difference between multicast and unicast streaming?
The unit outputs UDP/RTP multicast streams, which means that any devices on the network with IGMP protocol enabled can receive the streams.
For example, the syntax for VLC players is udp://@(multicast IP address):(port number), for instance, udp://@224.2.2.2:2234.
For mobile applications, you would need a video server and encoder to stream UDP to the server.
The server then streams HLS streams to the devices which requested the streams like cell phones.
This can be a hardware server or software, with many consumers using Wawza.
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It is possible to achieve that, but it can be a bit complex. Each channel would need to be re-encoded, which means we would first need to decode each program to HDMI video format using separate Cable TV STBs. Then, we would use HDMI encoders to produce IP streams. HDMI encoders have the ability to inject text or images and incorporate them into the IP streams. The IP streams would then be converted back to HDMI using IP STBs.
Please let me know how many channels you would like to process in this manner.
We have 8 to 24-channel HDMI encoders available. The 8-channel HDMI encoder is priced at $4,295, while the 24-channel HDMI encoder is priced at $5,995.Additionally, we have the H-STB-IP available for $169 each, which is the compact IP decoder set-top box.
I have two questions:
I’m asking because you will not be able to convert Comcast’s signal directly to IP unless they supply Clear QAM — which is very unusual these days (most cable providers encrypt their channels).
If your QAM signal is encrypted (which is typical), you would need Comcast-provided set-top boxes (STBs) to decode their QAM signal to HDMI. From there, we can encode each HDMI output to IP. In your case, that would require approximately 70 Comcast STBs + 70-channel IP encoders. This is doable, but it’s impractical, expensive, and requires a lot of rack space/power/maintenance.
Here’s an example of such a device:Thor H-IP-STB or similar low-cost IP → HDMI multicast decoder
https://thorbroadcast.com/product/compact-ip-decoder-set-top-box.html
Please let me know the answers to the two questions above so we can recommend the best and most cost-effective solution for your setup.
In my humble opinion, it would be much easier and less expensive to leave the video distribution over coax — if you can and then convert everything over to IP only where necessary.
Switching everything to IP is more complex and more expensive.
This is the link to 8ch SDI QAM modulator you can use for your 20Ch SDI sources:
H-HYBRID-RF-8
https://thorbroadcast.com/product/8-channel-sdi-and-hdmi-clear-catv-rf-modulator-qam-8230.html
4 Analógicas de Audio de Video y ASI IPTV SD Codificador de Serpentina Y Mux
La calidad de emisión SD del programa de codificación de analógico compuesto de banda de las entradas de video en BNC terminales con audio estéreo. Todos los programas de multiplexado para MPTS salidas ASI e IP. SPTS salidas están disponibles para todos los programas en IP. Todos los ajustes se gestiona a través del panel LCD o de administración de web.
8 HDMI Codificador de Radiodifusión IPTV Streamer y ASI, H. 264 / AC3/ 1080p / CC
Baja Latencia, HDCP cumplido, de Alta densidad HD de codificación y multiplexación sistema para la cabecera de la generación de programas. Acepta 8 entradas HDMI en hasta 1080p60, y ofrece 9 IP salidas (8x SPTS, 1x MPTS) y dos salidas ASI que contenga todos los programas codificados. También se incluye una entrada ASI para la multiplexación de un PUNTO del programa con las salidas, pasar HDCP
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