Ramsey Electronics RRW1A instruction

10. Install R4, a 22K ohm resistor (red-red-orange).

11. Install C4, a 47 pF ceramic capacitor (marked 47). This capacitor works with Q1 to isolate the antenna from the oscillator section. The capacitor value of 47 pF was chosen because it looks like a direct short to ground at 433 MHz so any RF on the base of Q1 is removed!

12. Install C1, a 47 pF ceramic capacitor (marked 47).

13. Install C2, a 0.01 uF ceramic capacitor (marked .01 or 103 or 10 nF). Both C1 and C2 are used as power bypass capacitors to keep RF signals out of the power supply. While a 47 pF capacitor looks like a short at 433 MHz, a 0.01 uF ceramic capacitor does not. Why do we use a 47 pF right next to this 0.01 uF ceramic capacitor? This bypasses the 433 MHz and any other low frequency signal that could be present. It is a good practice to bypass RF stages in this manner to remove any possible noise in the system.

14. Install R1, a 470 ohm resistor (yellow-violet-brown).

15. Install R2, a 2.2K ohm resistor (red-red-red). R1 and R2 form a bias network for Q1, which allows a certain amount of current to be available to Q2 when oscillation begins. They also work in conjunction with C4 above to isolate the oscillator from the antenna.

16. Install C6, a 47 pF ceramic capacitor (marked 47). This capacitor helps to keep any 433 MHz signal from feeding back on our data input circuit.

17. Install Q3, a 2N3904 NPN transistor (marked 2N3904). Pay attention to the flat side for orientation. This transistor is needed to invert the data output of the IR detector. If you remember from the circuit description, the output of the IR detector goes low when a signal is detected. We want to transmit a signal whenever that output goes low so we need to invert the low to a high to turn the oscillator stage on when the IR signal is seen.

18. Install R3, a 4.7K ohm resistor (yellow-violet-red).

19. Install JMP1 using a spare piece of component lead. Since this layout is on a single sided board, some routes just couldn’t be performed without adding this jumper.

20. Install R5, a 10K ohm resistor (brown-black-orange).

21. Install U1, the IR detector. Pay attention to the orientation and make sure all leads are through the holes before soldering in place.

22. Install C5, a 0.1 uF ceramic capacitor (marked .1 or 104 or 100 nF). This bypass capacitor reduces any noise on the power supply line just before going into U1. We don’t want any noise here to give us false data pulses!

RRW1A • 11

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.