User's Guide
Table Of Contents
- 0. Preface
- 1. Systems Description
- 2. Getting Started
- 2.1 Identifying your Device
- 2.2 Unpacking your Nano Transmitter
- 2.3 Unpacking your HD Nano Transmitter
- 2.4 About the Labels on your Nano Transmitter
- 2.5 Planning the Hardware Installation
- 2.6 Identifying the Variants of Nano Transmitter
- 2.7 Identifying the Options of Nano Transmitter
- 2.1 Identifying the Variants of HD Nano Transmitter
- 2.2 Identifying the Options of HD Nano Transmitter
- 2.3 About the Software with your Nano Transmitter
- 3. Controls, Connections and Indicators
- 3.1 About Controls, Connections and Indicators
- 3.2 Exploring the Top Panel – Nano Transmitter
- 3.3 Exploring the Bottom Panel – Nano Transmitter
- 3.4 Exploring the Side Panel – Nano Transmitter
- 3.5 Exploring the Top Panel – HD Nano Transmitter
- 3.6 Exploring the Bottom Panel – HD Nano Transmitter
- 3.7 Exploring the Side Panel – HD Nano Transmitter
- 4. Setting up your Nano Transmitter
- 5. Basic Operation
- 6. Advanced Operation
- 7. Advanced Setup
- 7.1 About Advanced Setup
- 7.2 Installing the Nano TX Controller on your PC
- 7.3 Connecting your PC to the Nano TX using Serial
- 7.4 Exploring the Nano TX Controller Main Window
- 7.5 Performing a Quick Setup
- 7.6 Working with the Unit Status Panel
- 7.7 Working with the Switch Panel
- 7.8 Working with the Unit Tab
- 7.9 Working with the Modulation Tab
- 7.10 Working with the Audio Tab
- 7.11 Working with the Video Tab
- 7.12 Working with the Misc Tab
- 8. Appendix A – Cautions and Warnings
- 9. Appendix B - Care and Maintenance
- 10. Appendix C-Glossary
- 11. Appendix D – Reference Material
Solo7 Nano Transmitter
Commercial in
Confidence
Video, Transmitters, Solo7 Nano
Transmitter
100145
Revision: 8.0
Commercial in
Confidence
Page 6-32
DC Power
RF Power Out
Current I(mA)
Mode
Wattage
10
17
380
High
3.80
10
10
320
High
3.20
Table 6-2 – Typical Power Consumption 1650 to 2400MHz (High L and S-Band)
DC Power
RF Power Out
Current I(mA)
Mode
Wattage
10
20
390
Low
3.90
10
17
355
Low
3.55
10
10
325
Low
3.25
10
20
465
High
4.65
10
17
375
High
3.75
10
10
340
High
3.40
Table 6-3 – Typical Power Consumption 200 to 300MHz (VHF)
6.3.3 About DC Power Use
SOLO7 Nano Transmitter is very power efficient. In earlier models of transmitter, if you
switched from high to low RF power, the same DC power level would be used, although the
RF signal was attenuated.
In these newer transmitters, when you select lower RF powers the DC power level is
dropped too, using just the power needed to achieve the RF power required.
This stepping down of the DC power level applies to both Low Power Mode and High
Linearity Mode.