AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |
Back to Blog
Red alarm light on zhone router3/22/2023 ![]() W1 where the train will stop momentarily, then continue in the sameĭirection. Step 2 - Install the sensors for station stops Install train sensor To run the train in the opposite direction, swap these two Step 1 - Track wiring and rail gaps Connect one loop track rail to One-way loop operation Connect sensors W1 and/or W2 Do not connect Other station stops can be created withĮxternal train detectors connected to terminals 'ST' and 'C.' Go to Sensor E2 may be installed for an intermediate station stop between Sensors W1 and E1 must always be used for back-and-forth The rate of decelerationĪnd acceleration is varied by turning the ACCEL adjustment. Stop before reaching the end of the track. Leave space between the sensorĪnd the end of the track so the train will be able to slow down and Step 2 - Install the Sensors Install a train sensor at each 'main N' and 'main S' on the PFRR circuit board.Ī © 2018 Azatrax Pickle Fork RR Installation, NTO (no Step 1 - Track wiring Connect the main line rails to terminals Station stop W2 at second station stop, if desired Externalīack-and-forth operation Must connect sensors W1 and E1 Sensors W2 Externalĭetectors may also be used for station stops.Ĭonnect sensors: Do not connect E1 Do not connect E2 W1 at first May be used as a station stop between W1 & E1. ![]() The wrong combination will result inĬonnect sensors: Do not connect W2 W1 at west end E1 at east end E2 So be careful to connect your sensors to the correct terminals on ![]() Is determined by the combination of sensors that are The PFRR controller has connections for up to two train sensors. Additional sensors or external detectors may beĪdded for station stops where a train will momentarily stop, then Train sensors: One train sensor must be installed at each track ![]() Maximum track current: 2 amps (2.5 amps for acceleration).Īn accessory power supply, 12 to 17 volts AC or DC is required to Train direction is controlled by the polarity of the track Requirements: Trains must be DC powered, not DCC or AC, because Loop, making stops at predetermined locations. Train layout - or, one train can travel continuously around a This controller can automate a single track 'back-and-forth' model Installation guide, 'Pickle Fork' Back-and-Forth Model Train © 2018 Azatrax Pickle Fork RR Installation, NTO (no turnouts) rev. see page 2 Back-and-forth operation Must connect sensors W1 and E1 Sensors W2 and E2 are optional Step 1 - Track wiring Connect the main line rails to terminals 'main N' and 'main S' on the PFRR circuit board. see page 1 below Connect sensors: Do not connect E1 Do not connect E2 W1 at first station stop W2 at second station stop, if desired External detectors may also be used for station stops. External detectors may also be used for station stops. Back and forth, no turnouts Connect sensors: Do not connect W2 W1 at west end E1 at east end E2 may be used as a station stop between W1 & E1. The wrong combination will result in unexpected operation. So be careful to connect your sensors to the correct terminals on the PFRR controller. The operating mode of the PFRR is determined by the combination of sensors that are connected. Additional sensors or external detectors may be added for station stops where a train will momentarily stop, then continue in the same direction. One sensor is needed at each track end point. Train sensors: One train sensor must be installed at each track location where a train is to stop. An accessory power supply, 12 to 17 volts AC or DC is required to run the PFRR circuit. Maximum track current: 2 amps (2.5 amps for acceleration). Requirements: Trains must be DC powered, not DCC or AC, because train direction is controlled by the polarity of the track power. Installation guide, 'Pickle Fork' Back-and-Forth Model Train Controller Azatrax model PFRR-NTO This controller can automate a single track 'back-and-forth' model train layout - or, one train can travel continuously around a loop, making stops at predetermined locations.
0 Comments
Read More
Leave a Reply. |