Brake actuator interface with trailer brake control

What is claimed is: 1. A method for controlling braking of a towed vehicle using a towing vehicle, the method comprising: receiving, at or by a brake actuator ECU (electronic control unit) on the towed vehicle, deceleration data of the towing vehicle corresponding to a deceleration request received at or by the towing vehicle; sensing, using a sensor on the towed vehicle, a longitudinal deceleration of the towed vehicle corresponding to the deceleration request; determining, at or by the brake actuator ECU on the towed vehicle, that the towing vehicle and the towed vehicle decelerated at different deceleration rates in response to the deceleration request, the determining being based on the received deceleration data of the towing vehicle and the sensed longitudinal deceleration of the towed vehicle; generating, at or by the brake actuator ECU on the towed vehicle, a brake signal in response to determining that the towing vehicle and the towed vehicle decelerated at the different deceleration rates; sending, by the brake actuator ECU on the towed vehicle, the brake signal to an electric motor of a brake actuator on the towed vehicle; and applying, by the brake actuator on the towed vehicle, a hydraulic pressure to brakes on the towed vehicle based on the brake signal such that a difference in deceleration rate between the towing vehicle and the towed vehicle is less than a threshold value. 2. The method of claim 1 , further comprising: receiving, at or by the brake actuator ECU on the towed vehicle, wheel speed data from a wheel speed sensor located at each wheel of a plurality of wheels; determining, using a wheel sensor, whether any of the plurality of wheels are slipping or are locked; and reducing, by the brake actuator on the towed vehicle, the hydraulic pressure to the brake for the wheel that is slipping or is locked to maintain anti-lock braking of the towed vehicle. 3. The method of claim 1 , further comprising receiving, at or by the brake actuator ECU on the towed vehicle, a remote brake signal from an ECU on the towing vehicle based on an autonomous braking of the towing vehicle. 4. The method of claim 1 , further comprising providing a display or an interface integrated within the towing vehicle and configured to display a message indicating whether the brakes on the towed vehicle are weak, fading, worn out or non-functioning. 5. The method of claim 1 , further comprising providing a strain sensor connected to an ECU on the towing vehicle and configured to be attached to a towing rod or bar that is used to connect the towing vehicle to the towed vehicle. 6. The method of claim 5 , further comprising continually or periodically monitoring, by the ECU on the towing vehicle, the strain sensor in real-time to determine when a level of strain greater than a threshold level is being placed on the towing rod or bar to send a signal to the brake actuator ECU on the towed vehicle to increase or decrease the braking of the towed vehicle. 7. The method of claim 5 , further comprising providing a display or an interface integrated within the towing vehicle and configured to display strain information from the strain sensor, the strain information including how much strain is being placed on the towing rod or bar, whether the braking of the towed vehicle should be increased, decreased or is correct, or whether a key is connected to or has been disconnected from a switch indicating that the towed vehicle has been disconnected from the towing vehicle. 8. The method of claim 7 , further comprising displaying, by the display or the interface, a message indicating that the towed vehicle has been disconnected from the towing vehicle in response to the key being disconnected from the switch. 9. The method of claim 7 , further comprising transmitting, by the ECU on the towing vehicle, a disconnect signal to the brake actuator ECU on the towed vehicle in response to the key being disconnected from the switch. 10. The method of claim 9 , further comprising automatically sending or transmitting, by the brake actuator ECU on the towed vehicle, a stop signal to the electric motor of the brake actuator on the towed vehicle and automatically activating, by the brake actuator ECU on the towed vehicle, brake lights on the towed vehicle in response to the brake actuator ECU on the towed vehicle receiving the disconnect signal. 11. A method for controlling braking of a towed vehicle using a towing vehicle, the method comprising: receiving, at or by a trailer brake control ECU (electronic control unit) on the towed vehicle, a pulse-width modulated (PWM) signal proportional to (i) a brake pressure, (ii) a deceleration or (iii) a manual input of the towing vehicle, the PWM signal generated at or by a trailer brake control unit on the towing vehicle; mapping, at or by the trailer brake control ECU on the towed vehicle, the PWM signal to a corresponding deceleration request; receiving, at or by a brake actuator ECU on the towed vehicle, the deceleration request; transmitting, by the brake actuator ECU on the towed vehicle, the deceleration request to an electric motor of a brake actuator on the towed vehicle; applying, by the brake actuator on the towed vehicle, a hydraulic pressure to brakes on the towed vehicle based on the deceleration request; determining, at or by the brake actuator ECU on the towed vehicle, that the towing vehicle and the towed vehicle decelerated at different deceleration rates in response to, respectively, the PWM signal and the deceleration request, the determining being based on receiving deceleration data of the towing vehicle and sensing longitudinal deceleration of the towed vehicle; generating, at or by the brake actuator ECU on the towed vehicle, a brake signal in response to determining that the towing vehicle and the towed vehicle decelerated at the different deceleration rates; transmitting, by the brake actuator ECU on the towed vehicle, the brake signal to the electric motor of the brake actuator on the towed vehicle; and applying, by the brake actuator on the towed vehicle, the hydraulic pressure to the brakes on the towed vehicle based on the brake signal such that a difference in deceleration rate between the towing vehicle and the towed vehicle is less than a threshold value. 12. The method of claim 11 , wherein the mapping the PWM signal to the corresponding deceleration request includes using a lookup table or an equation. 13. The method of claim 11 , further comprising: receiving, at or by the trailer brake control ECU, wheel speed data from a wheel speed sensor located at each wheel of a plurality of wheels; determining, using a wheel sensor, whether any of the plurality of wheels are slipping or are locked; and reducing, by the brake actuator on the towed vehicle, the hydraulic pressure to the brake for the wheel that is slipping or is locked to maintain anti-lock braking of the towed vehicle. 14. The method of claim 11 , further comprising providing a display or an interface integrated within the towing vehicle and configured to display a message indicating whether the brakes on the towed vehicle are weak, fading, worn out or non-functioning. 15. The method of claim 11 , further comprising providing a strain sensor connected to the trailer brake control unit on the towing vehicle and configured to be attached to a towing rod or bar that is used to connect the towing vehicle to the towed vehicle. 16. The method of claim 15 , further comprising continually or periodically monitoring, by the trailer brake control unit on the towing vehicle, the strain sensor in