KRAMER: SIMPLE CREATIVE TECHNOLOGY
Contents
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3Table of Hex Codes for Serial Communication
Hex Tables for Audio Input/Output Gain Control
Hex Tables for Audio Input Gain Control
Hex Tables for Audio Output Gain Control
Figures
Figure 1: VP-1608 16x8 RGBHV/Balanced Audio Matrix
Figure 2: VP-1608 Underside Flash Program Switches
Figure 3: Connecting the VP-1608
Figure 4: Connecting the Balanced Stereo Audio Input/Output
Figure 5: Connecting the Unbalanced Stereo Audio Input
Figure 6: Connecting an Unbalanced Stereo Audio Output
Figure 7: Connecting a PC Without Using a Null-Modem Adapter
Figure 8: Controlling via RS-485 (for example, using an RC-3000)
Figure 9: Control Configuration via RS-232 and RS-485
Figure 10: Controlling via an RS-485 Controller
Figure 11: DIP-Switch Setup on a Single Machine
Figure 12: VP-1608 Unit Characteristics
Figure 13: VP-1608 Underside Flash Program Switches Set for Upgrade
Figure 15: Atmel – Flip Window
Figure 16 Device Selection Window
Figure 17: Device Selection Window
Figure 20: Atmel – Flip Window (Connected)
Figure 21: Atmel – Flip Window (Operation Completed)
Tables
Table 1: Front Panel VP-1608 16x8 RGBHV/Balanced Audio Matrix Features
Table 2: Rear Panel VP-1608 16x8 RGBHV/Balanced Audio Matrix Features
Table 3: VP-1608 Underside (Flash Program Switches) Features
Table 4: MACHINE # DIP-switch Settings
Table 5: DELAY DIP-switch Settings
Table 6: Technical Specifications of the VP-1608
Table 7: VP-1608 Hex Codes for Switching via RS-232/RS-485 in Breakaway Mode
Table 8: VP-1608 Hex Codes for Audio Input Gain Control
Table 9: VP-1608 Hex Codes for Audio Output Gain Control
Table 10: Protocol Definitions
Table 11: Instruction Codes for Protocol 2000