Ramsey Electronics RRW1A instruction

When the IR detector on the RRW1A (transmitter board) “sees” a 38 kHz IR signal, the output of the detector goes low (it is inverted). When there is no 38 kHz signal present the output idles high. On the output of the IR detector you won’t see the 38 kHz, just the data that the 38 kHz represents from your IR remote control. This data from the IR detector is then used to switch on and off a 433.42 MHz oscillator. Instead of switching an LED on and off at 38 kHz, we are now switching an electrical field on and off at a rate of 433.42 MHz. This acts as our new carrier frequency for the wireless part of the kit.

The oscillator section is a Colpitts style oscillator formed by Q2, C7, C8, R6, and X1. The oscillator is turned on and off by Q3 through resistor R4 in accor- dance with the received IR data. When a data pulse is detected by U1, its out- put goes low pulling the base of Q3 low to turn it off. When Q3 turns off, the collector (R3, R4, and Q3 junction) is pulled high so the needed bias voltage is applied to R4 causing Q2 to turned on and begin oscillating with the surround- ing parts. Turning Q2 on and off performs the on-off data keying (OOK modu- lation) that we require to re-broadcast the IR signal.

The RRW1B (receiver board) has a specialized receiver chip which is also set at 433.42 MHz. The receiver detects whether or not a 433.42 MHz field is being broadcast and only sets its data output high if a signal is present. The RRW1B will replicate the transmitted data by turning its data out pin on and off at the received data rate. To re-send this data, we have to modulate a 38 kHz carrier again in accordance with the data the IR detector puts out. By using a micro-controller the data output from the IR detector can be sampled and a Pulse Width Modulated (PWM) signal at 38 KHz can be generated in accor- dance with the detected data.

By using this method with a micro-controller, we can add some intelligence to the regenerated signal as well. The sample IR remotes we have looked at send their data at a rate of around 2400 bits per second. This means that our minimum pulse length for a zero should be 1/2400 x 0.30 seconds long (125 uS). Consider this example, let’s say that the signal from the IR remote is weak and it fades out due to interference from some other IR source before the data pulse is finished (i.e. 80 uS instead of 125 uS). The micro-controller will continue to send the 38 kHz until 125 uS is up, not allowing the re- transmitted signal to drop out the way the original source did. This error cor- rection feature can be disabled in case you have a strange remote that is not compatible (to this point we have yet to run across one that doesn’t work). Re- move the jumper from J21 to disable this feature and have U21 blindly re- create the data it sees.

Once the micro-controller on the receiver board has re-generated the 38 kHz carrier (modulated by the data), its output is buffered by a transistor stage that drives the high power IR LED used to control your equipment.

Wow! There’s a lot going on here!

RRW1A • 6

RRW1A specifications

The Ramsey Electronics RRW1A is a versatile radio frequency (RF) wireless microphone system that stands out due to its robust features and reliable performance. Designed primarily for educational institutions, conferences, and public speaking events, the RRW1A offers a user-friendly experience paired with superior audio quality.

One of the main features of the RRW1A is its RF transmission technology, which allows for seamless communication over distances of up to 300 feet. This range is particularly beneficial in larger venues, enabling users to move freely without sacrificing audio clarity. The device operates within a specified frequency band to minimize interference, ensuring a clean audio signal. This digital frequency modulation is complemented by an assortment of selectable channels, allowing users to switch frequencies when faced with potential interference from other devices.

Another significant characteristic of the RRW1A is its dual-channel operation. This feature enables users to connect two different microphones or audio sources simultaneously, making it an ideal choice for panel discussions or multi-person presentations. The system supports both dynamic and condenser microphones, providing flexibility based on user preferences.

The RRW1A also features a built-in rechargeable battery system, offering convenience for users who need a reliable and portable solution. The runtime of the battery extends through long sessions without the anxiety of losing power. Additionally, the device includes LED indicators that show battery life and signal strength, allowing users to monitor the status easily.

Ease of use is a hallmark of the RRW1A, equipped with a simple interface and compact design. The setup process is straightforward, requiring minimal technical knowledge. Users can quickly connect and start broadcasting, making it an accessible tool for educators and event organizers alike.

Moreover, the RRW1A is built with durability in mind. Its rugged construction withstands the rigors of frequent use in various environments. This reliability makes it a preferred choice for both rental services and permanent installations.

In summary, the Ramsey Electronics RRW1A is a powerful and flexible RF wireless microphone solution, featuring RF transmission technology, dual-channel capability, built-in rechargeable batteries, and user-friendly operation, making it an excellent choice for anyone seeking a high-quality audio solution for various applications.