Parking brake emulator

What is claimed is: 1. A parking brake emulator assembly for a vehicle, comprising: a mounting bracket comprising a front spring mounting flange with a spring mounting hole; a brake lever rotatable relative to the mounting bracket into a neutral position and a brake application position; a spring guiding rod having a first end coupled to the brake lever through a pinned connection; a spring aligned with the spring mounting hole; and a rear spring holder aligned with the spring mounting hole; wherein the spring guiding rod extends through the spring and the rear spring holder, and a second end of the spring guiding rod is coupled to the rear spring holder; wherein rotation of the brake lever from the neutral position to the brake application position moves the pinned connection to thereby move the spring guiding rod and the rear spring holder toward the front spring mounting flange, thereby compressing the spring. 2. The parking brake emulator assembly of claim 1 , further comprising an angular sensor having a body portion coupled to the mounting bracket and a forked portion that is rotatable relative to the body portion, wherein the forked portion is operatively coupled to the brake lever so that the angular sensor is configured to: detect that the brake lever is in the brake application position; and transmit a control signal to an electronic parking brake module to engage a vehicle parking brake system in response to detecting the brake lever in the brake application position. 3. The parking brake emulator assembly of claim 2 , wherein the brake lever is rotatable relative to the mounting bracket into a brake disengage position, wherein the neutral position is located between the brake application position and the brake disengage position, and wherein the angular sensor is further configured to: detect that the brake lever is in the brake disengage position; and transmit a control signal to the electronic parking brake module to disengage the vehicle parking brake system in response to detecting the brake lever in the brake disengage position. 4. The parking brake emulator assembly of claim 2 , wherein the forked portion is slideably coupled to a brake lever protrusion. 5. The parking brake emulator assembly of claim 4 , wherein rotation of the brake lever rotates the forked portion relative to the body portion through the brake lever protrusion. 6. The parking brake emulator assembly of claim 1 , further comprising a toggle switch coupled to the mounting bracket and configured to: detect that the brake lever is in the brake application position; and transmit a brake indicator illumination signal to a vehicle computer system in response to detecting the brake lever is in the brake application position. 7. The parking brake emulator assembly of claim 1 , wherein the mounting bracket further comprises a rear spring mounting flange with a spring mounting hole, and the rear spring holder is slideably disposed in the spring mounting hole in the rear spring mounting flange. 8. The parking brake emulator assembly of claim 1 , further comprising: a second spring guiding rod spaced apart from the spring guiding rod and having a first end coupled to the brake lever though the pinned connection; a second spring; and a second rear spring holder; wherein the second spring guiding rod extends through the second spring and the second rear spring holder, and a second end of the second spring guiding rod is coupled to the second rear spring holder; and wherein rotation of the brake lever from the neutral position to the brake application position moves the pinned connection to thereby move the second spring guiding rod and the second rear spring holder toward the front spring mounting flange, thereby compressing the second spring. 9. A parking brake emulator assembly for a vehicle, comprising: a mounting bracket; a brake lever configured to be rotated relative to the mounting bracket into a neutral position and a brake application position, the brake lever comprising: a first end configured to receive an applied force for the purpose of rotating the brake lever between the neutral position and the brake application position; and a second end comprising a roller component; a cam member comprising: a first end pivotally coupled to the mounting bracket; a second end comprising a lever arm; and a cam surface located between the first and second ends, wherein the cam surface is configured to contact the roller component; and a spring having a first end, which is coupled to the mounting bracket, and a second end, which is coupled to the lever arm; wherein rotation of the brake lever from the neutral position to the brake application position in turn pivots the cam member as the roller component moves along the cam surface to compress the spring with the lever arm. 10. The parking brake emulator assembly of claim 9 , further comprising an angular sensor having a body portion coupled to the mounting bracket and a forked portion that is rotatable relative to the body portion, wherein the forked portion is operatively coupled to the brake lever so that the angular sensor is configured to: detect that the brake lever is in the brake application position; and transmit a control signal to an electronic parking brake module to engage a vehicle parking brake system. 11. The parking brake emulator assembly of claim 10 , wherein the brake lever is rotatable relative to the mounting bracket into a brake disengage position, wherein the neutral position is located between the brake application position and the brake disengage position, and wherein the angular sensor is further configured to: detect that the brake lever is in the brake disengage position; and transmit a control signal to the electronic parking brake module to disengage the vehicle parking brake system in response to detecting the brake lever in the brake disengage position. 12. The parking brake emulator assembly of claim 10 , wherein the forked portion is slideably coupled to a brake lever protrusion. 13. The parking brake emulator assembly of claim 12 , wherein rotation of the brake lever rotates the forked portion relative to the body portion through the brake lever protrusion. 14. The parking brake emulator assembly of claim 9 , further comprising a toggle switch coupled to the mounting bracket and configured to: detect that the brake lever is in the brake application position; and transmit a brake indicator illumination signal to a vehicle computer system in response to detecting the brake lever is in the brake application position. 15. A parking brake emulator assembly for a vehicle, comprising: a mounting bracket; a brake lever rotatably coupled to the mounting bracket at a pivot, the brake lever comprising a lever arm and an integrated cam surface on opposite sides of the pivot, wherein the brake lever is rotatable through the lever arm into a neutral position and a brake application position; a spring comprising a first end and a second end, the first end coupled to the mounting bracket and the second end coupled to a spring retainer; and a roller operatively coupled to the spring retainer and in contact with the integrated cam surface; wherein the roller moves along the cam surface in response to rotation of the brake lever from the neutral position to the brake application position, which in turn moves the roller and the spring retainer to compress the spring. 16. The parking brake emulator assembly of claim 15 , further comprising an angular sensor having a body portion coupled to the mounting br