IPTV to 16/32 CLEAR CHANNEL RF QAM/ATSC Modulator

H-IPRF-32QAM
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Description Features Drawings Video Model Selection Specification Q&A Documents Support
IPTV to 32 QAM model description
IPTV TS's Input to 32 QAM channels output - Edge QAM
Description

IP to 8 or 16 or 32 QAM CATV RF or ATSC Agile Edge Modulator

H-IPRF-32QAM  IP to 32 RF Agile QAM Edge Modulator

H-IPRF-16QAM  IP to 16 RF Agile QAM Edge Modulator

H-IPRF-16ATSC  IP to 16 RF Agile ATSC Edge Modulator

H-IPRF-8ATSC  IP to 8 RF Agile ATSC Edge Modulator

H-IPRF-16DVBT  IP to 16 RF Agile DVB-T Edge Modulator

H-IPRF-8DVBT  IP to 8 RF Agile DVB-T Edge Modulator

 

QAM modulator for IPTV backbone to Clear QAM RF

Thor Broadcast model H-IPTV-16QAM will modulate IPTV transport streams to Clear-QAM RF channels for DVB-C applications

The H-IPTV-16 QAM modulator is a simple all-in-one utility device to convert up to 1024 IP Transport Streams in UDP / RTP into 16 non-adjacent QAM Channels. This Thor Broadcast high-density IP to QAM modulator is designed to take content delivered via an IP backbone or CDN system and modulate the programming onto digital QAM cable channels for distribution over coax. This product includes a 1RU chassis supporting two individual Ethernet inputs injecting up to 840Mbps on each Ethernet RJ45 connector outputs all programming onto a single RF F-Type connector for easy output into your RF Coax infrastructure. This single RU form factor allows you create your own IPTV to RF headend in a single chassis. All QAM Channels and IP inputs are managed from the easy to use NMS RJ45 port connection on the front of the unit allowing you to quickly and easily access your programming from Thor’s easy to read GUI that can be accessed from anywhere on your network. The IPTV programming input is standard headend format, meaning basic UDP / RTP unicast/multicast IGMP v2 / v3 addresses and port format. This impressive density allows a single chassis to convert an IPTV Ethernet backbone feed to be converted to a full lineup of digital cable DVB-C channels for easy distribution. 

APPLICATION: 

In Addition to high-density IPTV-QAM modulators for any application, Thor also Specializes in Hybrid Fiber Coax (HFC) and Fiber to the Home (FTTH) equipment and system design. Thor’s full turnkey solution product line even extends to headend encoding platforms with the goal of being the only equipment provider you will ever need. A full staff of trained application engineers is available to answer any questions you might have and to recommend solutions available that you're not aware of. Contact a sales representative today if you would like more information on receiving a free consultation and system design.

 

Thor part number H-IPTV-QAM systems are specifically designed to utilize bandwidth to the incoming IP Transport Streams and reallocating that bandwidth on the RF QAM frequencies. The amount of programs that you are able to inject into the QAM systems is only limited by the bandwidth provided. Essentially you can create a lower amount of HD (High Definition) programming or an extensive amount of SD (Standard Definition) programming. This can even trasnport IPTV 4K streams and convert them to QAM cable channels. The 16 non-adjacent QAM channels are uniquely setup in the NMS so you can place them in any QAM headend that will allow programming to be set and configured in any channel lineup. With auto or manual PID remapping functionality, you’ll be able to set exactly the channel configuration of your choice allowing added flexibility to the customization of your channels. Maximizing these Gigabit Ethernet ports will allow input up to 840mb/s each producing 16 QAM Channels. Creating your own custom headend has never been easier using Thor Broadcasts newest IPTV to-QAM CATV headend in a box. Please call a sales associate now for more information or send an inquiry using our Thor Dash button.

Carrier Setting 

 

Principle Chart

 

 NMS Setup WEB Page GUI:  Frequency setup page in Thor IP to QAM Edge modulator  

 

 

NMS Setup WEB Page GUI: IP multicast Input to setup page IP to QAM Edge Modulator settings.

 

 

 

NMS Setup WEB Page GUI : IP streams multicast Input details page IP to QAM Edge Modulator 

 

Features
  • IPTV Modulator includes 2x Gigabit Ethernet input interfaces
  • 16 Clear QAM Channel Outputs - Non-Adjacent 50-960Mhz
  • Maximum 1024 Channels TS over UDP, RTP & Unicast / Multicast
  • Output Of RF on 16 Multiplexed, Scrambled, or QAM (DVB-C) Channels 
  • Gigabit Ethernet is serviced by SFP interface
  • Supports Unicast and Multicast, supports IGMP v2 / v3
  • Max 840Mbps for each GE Input
  • Supports Up to 180 PIDs per channel with PID remapping (manual or auto)
  • Web NMS (Network Management Software) for easy online access and management
Drawings
Video
How to convert IPTV Video steams to Cable TV channels - IPTV to CATV QAM , IPTV to coax converter
So in today's episode, we're using a 4 Channel HDMI encoder modulator H-4ADHD unit that is creating several IP streams from HDMI sources. Those sources Roku, Firestick, and BluRay are then sent via RJ45 through a switch which then goes from IPTV streams, converted back to RF QAM using an EDGE QAM Modulator. This is ideal for campus-like environments that can use one headend to distribute IPTV channels to numerous buildings, and then break back out to COAX via QAM Modulation. High-density output means a single 1RU 32QAM output device, can let you put quite a few streams into the coax existing infrastructure without the use of Set-Top Boxes. links to the devices : 4channel HDMI IP encoder and QAM modulator : https://thorbroadcast.com/product/4-hdmi-component-hd-to-coax-and-iptv-hd-8230.html/21 4 channel SDI IPTV encoder and QAM modulator https://thorbroadcast.com/product/1-4-sdi-to-qam-modulators-and-iptv-streaming-encoders.html/0 Edge Modulator - IPTV streams to QAM modulator https://thorbroadcast.com/product/iptv-to-16-32-clear-channel-rf-qam-atsc-modulator.html/122
Model Selection

H-IPRF-32QAM  IP to 32 RF Agile QAM Edge Modulator

H-IPRF-16QAM  IP to 16 RF Agile QAM Edge Modulator

H-IPRF-16ATSC  IP to 16 RF Agile ATSC Edge Modulator

H-IPRF-8ATSC  IP to 8 RF Agile ATSC Edge Modulator

H-IPRF-16DVBT  IP to 16 RF Agile DVB-T Edge Modulator

H-IPRF-8DVBT  IP to 8 RF Agile DVB-T Edge Modulator

H-IPRF-16ISDB-T  IP to 16 RF Agile ISDB-T Edge Modulator

H-IPRF-8ISDB-T  IP to 8 RF Agile ISDB-T Edge Modulator

Specification

input 

input

512 × 2 IP inputs, 2x 100 / 1000M Ethernet port (SFP)

Transport Protocol

TS over UDP / RTP unicast and multicast, IGMP V2 / V3

Transmission Rate

Max 840Mbps for each input GE

mux 

Channel input

1024

Output Channel

16

max PIDs

180 per channel

Functions

PID remapping (auto / manually optional)

PCR accurate adjusting

PSI / SI table Automatically generating

Scrambling

parameters

Max simulscrypt CA

4

Scramble Standard

ETR289, ETSI 101 197, ETSI 103 197

Connection

Local / remote connection

Modulation

parameters

QAM Channel

16 non-adjacent carriers

Modulation Standard

EN300 429 / ITU-T J.83A / B

symbol Rate

5.0 ~ 7.0Msps, stepping 1ksps

Constellation

16, 32, 64, 128, 256QAM

FEC

RS (204, 188)

RF Output

Interface

1 F-type output for 16 carriers, 75Ω impedance

RF Range

50 ~ 960MHz, stepping 1kHz

Output Level

-20dBm ~ + 10dBm (~ 87 117dbμV), 0.1dB stepping

MAYOR

≥ 40dB

ACLR

-60 dBc

TS output

16 IP output over UDP / RTP / RTSP, unicast / multicast, 2 x 100 / 1000M Ethernet Ports

System

Network management software (NMS) 

General

Dimensions

420mm × 440mm × 44.5mm (WxLxH)

Weight

10lbs

Temperature

0 ~ 45°C  (Operation) -20 ~ 80°C  (Storage)

Power Supply

AC 100V ± 10%, 50 / 60Hz or 220V AC ± 10%, 50 / 60Hz

Consumption

15.4W

Question and Answers
Answer:
Yes our reseller in the UK is Jigsaw24, they will be able to quote you on anything you need. If you would like to purchase direct please let me know.
Answer:
The DVBT standard has a wider step in Mhz then ATSC /or QAM. So if you need DVBT the 16QAM unit will only output 8DVBT and 32QAM unit will only output 16DVBT. So essentially because of that modulation standard, the amount of channels we can output is cut in half.
Answer:
Do you need IP to Analog RF NTSC/PAL modulated output? Can you accept Digital RF QAM/ATSC/DVB-T output? What country are you from, we will check your CATV RF modulation standard If you need Analog RF output than we would need to use the IP to CVBS decoder than Analog Modulator with CVBS Input. https://thorbroadcast.com/product/8-ip-to-8-analog-video-audio-cvbs-out.html
Answer:
This IP to QAM modulator unit supports unicast/multicast UDP and RTP Input IP TS streams only. Please check if those cameras have that format available, if not You can use our IP STB (set-top boxes) to decode your stress to HDMI Video format, this is a: https://thorbroadcast.com/product/compact-ip-decoder-set-top-box.html Now the HDMI QAM from the STBs connect to our 8Ch QAM/ATSC modulator to modulate and create 8 individual digital channels with the HD resolution up to 1080p https://thorbroadcast.com/product/1-8-hdmi-digital-rf-modulator-cc-closed-captioning.html If the cameras have HDMI outputs you could connect the output directly to the modulator, eliminating the need of the STB. Some cameras have other Video outputs like Analog Video CVBS or HD/SD- SDI, we have other modulators with those video format inputs
Answer:
What modulation will you need QAM or ATSC, the unit support only one of them? For hotel application QAM is better to format, you can fit more videos too. How many IP TS's do you need to modulate? Please note that 1 QAM channel contain 38Mbps data, the 1 ATSC channel contains 19Mbps data, so the amount of the programs we can fit in 1 Channel depends on the encoding TS video data rate. For example, if your TS datarate is 8mbps, then you can fit 4 Videos on the 1 QAM frequency or 2 videos on 1 ATSC frequency because of the 38mbps limit for QAM. Please let me know if this is clear.
Answer:
Yes, this is what that equipment was designed for. It will output 32QAM Channels; if you need more then that you just purchase additional units. However you can also put multiple programs in a single QAM, that is determined by the data rate of each IP. For the RF over Fiber application, we have an entire catalog of units to get the project done correctly. https://thorbroadcast.com/products/cable-tv-catv-rf-45-900mhz What is the approximate distance of the fiber, or the optical loss of the line?
Answer:
The H-IPRF-16/32 accepts a clear IP stream to CLEAR QAM, so the Vertimax needs to stripped off.
The unit is transparent, it works as a gateway, so whatever format is coming on the IP, it will be situated on the QAM.
You can also mux multiple TS programs on the single carrier, up to 28Mbps per channel, so for example if your streams are encoded at 8Mbps, you can fit 4 of them, For example, ch 2.1, 2.2, 2.3, 2.4
Answer:
We do have options for both. The QAM models are in stock; we have 16 and 32 channel outputs available. 
So, you can use 2 units, and then use a simple 2x1 RF combiner and the output of the combiner will have all 64 channels. 
Answer:
Are you looking for IP to 16QAM H-IPRF-16QAM or IP to H-IPRF-32QAM?
Are the incoming IP streams Clear UDP multicast streams encoded in MPEG2?
2----------
Yes, the system is able to mux internally, but please note that we can not transcode (h.264, aa3) to MPEG2, so if the multicast st stream is encoded in H.264, the same stream will be modulated on QAM.
A lot of TV's tuners will be not able to decode H.264, just a few companies and new TV's support H.264
Answer:
We do indeed have EDGE QAM modulators that would be ideal in this kind of scenario where you need to convert IP streams directly to QAM or ATSC. 
Those units are very specific so you need to determine if you would like to do QAM cable or ATSC over the air antenna. 
So you should consider if you have any other programs or CATV channels running in your vessel, it would be easier to match whatever else is presently available.
 
IP to 16QAM 
 
IP to 8 ATSC 
 
Both of those units are the same price. 
 
Some questions I would have for you is in order for this to go smoothly we would need to know more about those IP streams you have. 
What is the protocol being used? I assume those are multicast streams as well but double check on that for us.
Answer:
The higest desinty we can offer for the DVB-T is 16CH
If you use a 6mhz channel then 19.4Mb payload x 16 = 310Mbps
If you use 8Mhz channels than 33Mb payload  x 16 = 528Mbps
The part number is H-IPRF-16DVBT
Answer:
Yes we have similar IP to Clear QAM gateway, similar to Cisco RFGW-1
 
H-IPRF-32QAM is a IP to 32 QAM gateway , it generates 32 QAM block channels
The unit is is transparent to incoming TS stream, so the TS on the IP input = TS output on the RF QAM
The streams can be put and mixed anywhere on the available and generated Channels
It supports VCT and PID's remapping, major and minor channels can be named for any stream
 

 

If you need 50-60 channels than 2 pcs would do the job

Answer:
This is just a gateway, it converts IP to RF without changing the stream. 
Now that you mention you have IP camera's this probably won't work since you mention you're in Massachusetts.
 
Here's why; these gateways do not have any sort of transcoding implemented (yet, we're working on that)
So I went to the camera's data sheet and these are H264/H265 camera's. 
Which is great, if you want to use something like VLC to view the footage. 
Now if you're planning on using an american television with north american standards this solution won't work. 
You have to re-enocde the signal first. So essentially you need to take the camera outputs and put them in an RF modulator, which usually require IP STB's. 
You can't view H264 video on American MPEG2 televisions (for the most part, there are exceptions. 
 
We are working on a new model that has built in transcoding, however, that might be ready in 1-2 months time, it'll be the first of its kind on the market. 
For the time being if this is an immediate solution you require, you'd be better off purchasing IP STB's, so if you have 16 camera's, you'll need 16 decoders, then you plug those HDMI outputs into an RF modulator. 
Answer:
That is the case. As I noted we're working on a new product that would have a built in Transcoder, so it would be able to do all of this in one step. 
 
But yes, American standard for television is MPEG2. 
You purchased camera's that are H264. So it's just not compatible, the TV won't see the image. 
 
This is a less expensive option: (also I'd stay away from setting those camera's up as H265, there's no benefit in your situation.)
 
For the whole package, we would be able to give you a discount of sorts; or you can wait until the new hardware is ready. 
But this is the case that tons of people have when they go to install, most people don't realize codecs and protocols have to match otherwise distribution is dead in the water. 
 
Yes if you're in port, and can pick up ATSC channels, that would make sense. But if you go port to port, or various cities, where the channels change, then you also might have to get an RF filter to ensure those channels never corrupt the incoming ATSC from the camera's. 
 
Basic setup, lets say you have 16 Camera's 
16 STB
16 HDMI modulated inputs
you're already looking at close to 13k without the switches or cabling or anything else. 
 
 
In general this happens a lot, people find a camera they like and install somewhere, could be a warehouse for example; then they realize if they bought the slightly more expensive camera, they'd have an easier time with the headend conversion. 
Answer:
The device outputs +37dbmv , The TV's are able to decode the signal at 0 dbmv , so we have 37 db to play with.
 
Loss examples.
Coax loss is 3-7db per 100feet , debonding of the frequency
1x4 splitter loss 7.5db
1x8 splitter is 12db
 
If the loss in the system excedes 37db, than you can simply use RF amplifiers.
Answer:
So the actual answer varies. Reality is that the QAM frequency can carry up to 38mbps of data; so you can use that pipe however you want. 
You can do 1 HD at 19mbps, and 3 SD at 6mbps
or whatever breakdown you like. 
What also matters is if you are sending H264 or MPEG2, naturally H264 is more dense, however most TV's can't see H264, so realistically if you use MPEG2 and want full 1080p60 HD, then we suggest 2 programs at 19mbps; example you can have 20.1 and 20.5 using one frequency but you have two full HD programs on one frequency or channel. 
You can also send 720p at 9mbps each, and technically have 4 programs of HD; however as you know there is a big difference between 720p, 1080i, and 1080p. 
These are all things that play a part in the debate, so there isn't technically a right or wrong answer, it's generally how many programs you want to stuff into the output. 
However the unit itself is designed to output 32 full QAM channels, so in practical terms 64 full HD 1080p programs is very reasonable. 
So the actual answer varies. Reality is that the QAM frequency can carry up to 38mbps of data; so you can use that pipe however you want. 
You can do 1 HD at 19mbps, and 3 SD at 6mbps
or whatever breakdown you like. 
What also matters is if you are sending H264 or MPEG2, naturally H264 is more dense, however most TV's can't see H264, so realistically if you use MPEG2 and want full 1080p60 HD, then we suggest 2 programs at 19mbps; example you can have 20.1 and 20.5 using one frequency but you have two full HD programs on one frequency or channel. 
You can also send 720p at 9mbps each, and technically have 4 programs of HD; however as you know there is a big difference between 720p, 1080i, and 1080p. 
These are all things that play a part in the debate, so there isn't technically a right or wrong answer, it's generally how many programs you want to stuff into the output. 
However the unit itself is designed to output 32 full QAM channels, so in practical terms 64 full HD 1080p programs is very reasonable. 
Answer:
You mention analog and IP for inputs on the modulators; can you be slightly more specific? 
We do have quite a few options. 
How many overall channels are you trying to add? 
Depending on that answer you could use an IP to RF Edge Qam like this H-IPRF-32QAM
But we would also need to know the PID information for RCN, do you have that info available for their boxes?
If they require certain information, you might have to use modulators to do that contribution. 
Answer:

So products like that exist, but generally speaking if you want to
output the signal on RF (ATSC or QAM) the video should already be in
MPEG2.
The problem you're going to find quickly is that American Television
sets require MPEG2; if you happen to have TV's that can accept H264
then that's really great and we do have a simple solution.
However if you have MPEG2 TV's, then you're better off using STB's for
IP to HDMI, then using RF modulators to create your RF channels.

How many IP Camera's do you have?

------------------

Well as I mentioned the TV to view those channels needs to be reviewed
of weather they can see H264 or not.
As I noted, chances are they won't unless they are quite new, but even
some new TV's don't have that feature.

Well realistically in cases like this we have equipment that can do IP
to RF. We have units that can output 16 or 32 QAM channels from IP
feeds.
https://thorbroadcast.com/product/iptv-to-16-32-clear-channel-rf-qam-atsc-modulator.html/123

But that's only if you already have MPEG2 video.
In this case I would say using a simple IP STB for HDMI output going
to a modulator for RF output is the practical solution.
https://thorbroadcast.com/product/compact-ip-decoder-set-top-box.html
Then we have a number of RF modulators that will output MPEG2 as you need.
https://thorbroadcast.com/product/1-4-or-8-hdmi-digital-rf-encoder-modulator-8230.html/239
https://thorbroadcast.com/product/petit-hdmi-rf-modulator-chassis-system-for-1-12-units.html/254
 


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