I’m not an RF engineer, so my understanding may be limited; however, I was under the impression that a small antenna outputting a weak signal (key fob) can be received by a large antenna (vehicle) but that same signal cannot be broadcast from the large antenna and recurved by the small one unless the strength is boosted (which the fcc prevents) or the small antenna is increased in size.
Obviously, this can be done at a small size since many other manufacturers and aftermarket remote starters are 2-way; I don’t know what the size of the current antenna is in the fob, but based on needing a second antenna for low frequency and all the extra electronics there may not be enough space for a high frequency antenna large enough to receive the FCC restricted signal strength from the truck at long range.
I wonder if semantics is muddying the waters. Forgive me if you know this but "large" and "small" in electrical speak doesn't typically refer to absolute physical dimensions but instead refers to physical dimensions relative to a wavelength. To further confuse things, in the RF world those terms can refer to antenna gain.
Here's a chip antenna that lends itself for use in compact electronics like a key fob or TPMS sensor, no larger than 0.5" on a side. A quarter wavelength at 433 MHz is 6.87" in air. So, a disconnect exists and performance compromises were made in favor of small size. One of those compromises must be reduced antenna gain; such an antenna has a reduced ability to detect 433 MHz in the air and when it does, the recovered amplitude is smaller than would be on a "properly" sized antenna. The 2nd antenna below, however, may have a conductor sized perfectly for 433 MHz and will have many fewer performance compromises.
Both antennae will transmit and receive 433 MHz, over a range of various power levels, but the "efficiency" at which they do so is the only difference. Both can be driven to stay within FCC approved power levels with no problem. All of these discussion points can be repeated for the LF 125 kHz antenna.
The 3rd pic below is the chip I used for TPMS. A key fob chip would be similar but without the analog pressure and temperature sensors. As you can see on the radio transmitter block, this chip is TX only (transmit). A two-way fob just needs a "fancier" chip that has both TX and RX here. After receiving a START confirmation from the truck, it'd simply drive one of the general purpose IO's to feed an LED.
Two-way would be very simple to do... and now that I think about it more, I wish it was there too!
Linx Technologies p/n ANT-433-USP
Linx Technologies p/n ANT-433-PW-RA
Freescale p/n FXTH87
