If you're a user of Transmit version 3, you can upgrade the software to Transmit version 4 for a reduced price. See the Panic website for details. Title: Transmit 5.6.6 for Mac Requirements: Mac OS X; Language: English Available languages: English, German.
Determine your engine’s RPM based on the transmission gear ratio, tire height, MPH and the ratio of your ring gear and pinion gear.
This calculator will provide the speed of the vehicle based on the transmission gear ratio, the engine RPM, the tire height, and the ring gear and pinion gear ratio in the rear end axle differential housing.
Adobe animate 2018 cc. This calculator assumes you know the vehicle's transmission ratio.
Please refer to the Gear Ratio calculator to determine your rear end axle differential ratio.
Please refer to the Tire Height calculator to determine your tire height.
Find a Spicer parts distributor today, or find where you can place your order now on Dana’s streamlined eCommerce platform, DanaAftermarket.com.
This page, as an example, refers to the outlink multi-Mbit/s carrier, from the hub, which is shared amongst all VSAT users to download internet web pages etc. The carrier is similar to a DVB-S or DVB-S2 carrier which carries several MPEG TV and audio programmes.
The carrier on the satellite is made up of a sequence of joined together pulses to make a continuous signal. Each pulse is a symbol. According to the modulation method each symbol represents 1, 2 or 3 etc bits of transmission rate data.
In phase shift keying (PSK) modulation each pulse is a burst of carrier signal with its sinewave zero crossing point timing adjusted forwards or backwards in time to constitute a phase shift. Phase shifts of 180 deg apply in BPSK, 90 deg in QPSK etc. A phase shift of 90 deg represents a time shift of 1/4 of a full cycle of the sinewave. The closer the spacing of the phase shifts, the more difficult it is to distinguish between them at the receive end, so for for each higher order PSK schemes more carrier to noise ratio is required. In 16-QAM modulation the amplitude and the phase are changes from symbol to symbol, making a matrix pattern with the dots even closer together, and thuis requiring even higher C/N ratio.
As a general rule if you have bandwidth to spare, then use a lower order modulation (like BPSK or QPSK) and/or FEC rate like 1/2 or 2/3 to spread the signal out. If you have power to spare then use a higher order modulation and FEC rate like 3/4 or 7/8.
Ideally, you want to use all of both the available bandwidth and power simultaneously to obtain the highest user information rate.
If you use larger receive dishes you will always be able to increase the system capacity. If you are doing a point to point link it is well worth using larger dishes - spend more on the antennas and used advanced modulation technique modems, like Comtech Vipersat CDM-570L, to save on the space segment costs. It is even possible, for a point to point link with big dishes, provided both ends can see both signals, for you to transmit two carriers on top of one another using the bandwidth twice over. It is called carrier-in-carrier using Comtech modems.
If you have thousands of receive dishes then the aggregate cost of these is significant and you will want to allow smaller receive dish sizes even though this reduces system capacity and increases space segment costs.
Forward error correction
Forward error correction is applied to the customer's information data at the transmit end.
so transmission data rate = customer information rate x 1/ (FEC rate).
FEC rate is typically in the range 1/2 to 7/8 so the transmission data rate is always significantly more than the customer information rate.
This page provides a key formula:
SR = Symbol Rate
DR = Data Rate = the information rate. This is the same as the customer information rate if there is no framing, supervisory, conditional access or encryption overhead added to the data stream in the modem. DVB modems add significant overheads. CRv = Viterbi forward error correction (FEC) Code Rate. Eg. 1/2, 2/3, 3/4, 5/6, 7/8 CRrs = Reed Solomon forward error correction (FEC) Code Rate. Eg. 188/204
If some other type of FEC coding method is chosen, such as Turbo, LDPC or 2D 16-State coding, just use whatever FEC rate is selected (e.g. 5/16, 1/2, 21/44, 6/7, 3/4, 7/8, 0.95 )
m = modulation factor (transmission rate bits per symbol). BPSK=1, QPSK=2, 8PSK=3, 8QAM =3, 16QAM=4 etc Exactscan pro 15 11 2 – powerful fast document scanning.
Formula: SR = DR / (m x CRv x CRrs)DVB-S Carrier bandwidthTransmit 5 6 3 Equals Many
The bandwidth of the carrier at the -3.8 dB points is approx the same as the symbol rate.
The bandwidth of the carrier at the -12 dB points is approx 1.28 times the symbol rate.
The expression 'occupied bandwidth' is used to refer to a bandwidth 1.19 times the symbol rate, approx -10 dB points.
The allocated bandwidth, i.e. spacing between carriers needs to be approx 1.35 to 1.4 times the symbol rate. If you put the carriers too close together you will start to see more adjacent carrier interference. If you put them too far apart you will waste expensive bandwidth, so choose some compromise that includes some, but not too much interference. A suggested adjacent carrier interference allowance in link budgets is 28 dB on each side. You choose. If you can avoid high spectral density carriers adjacent to low spectral density carriers it will help.
For example: Symbol rate=27.5 Msym/s. Bandwidth = -1 dB 20.9 MHz, -2 dB 24.2 MHz, -3 dB 26.25 MHz, -3.8 dB 27.5 MHz, -4 dB 27.7 MHz, -6 dB 30.3 MHz, -12 dB 35 MHz. For a spectrum analyser view of the spectrum see this page
Some examples:
Transmit 5 6 3 Equals 1/3
* Aug 2016: Filter roll-off factors have been reduced from 20% to 5% over the past few years, allowing for tighter spacing between carriers and offering up to 13% in bandwidth savings. Read up the manufacturers data on the spacing appropriate for your choice of technology. The spacing between your own carriers is your business. At the edge of your paid-for transponder bandwidth, follow the rules set by the satellite operator to minimise interference to and from adjacent bandwidth leases.
6 April 2004: link to dvb-s carrier spectrum analyser plot added.
6 Jan 2009: Agilent Application note 1298 - Digital Modulation in Communications systems added (warning large pdf file 650 k bytes). A really good explanation of digital modulation.
4 October 2006. Turbo code, adjacent carrier interference, allocated bandwidth and occupied bandwidth mentioned.
4 Jan 2007, 4 Oct 2007: Table of example modulation methods, FEC coding and FEC rates added, amended
Transmit 5 6 3 Equals 2/3
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