User Manual
Table Of Contents
- Chapter 1: Product Overview 1
- Chapter 2: Configuration & Testing 19
- Chapter 3: Development Environment 27
- Product Overview
- Introduction
- Performance Specifications
- Electrical Interface
- Pin Functions
- Pin 1 (VIN)
- Pin 2 (LPP TX) and Pin 3 (LPP RX)
- Pin 4 (DIGITAL_IO1) and Pin 11 (DIGITAL_IO2)
- Pin 5 (ANALOG_IN1) and Pin 10 (ANALOG_IN2)
- Pins 6 and 7 (GND)
- Pin 8 (LOW_RF_POWER)
- Pin 9 (PWR_DN)
- Pin 12 (TPP RX) and Pin 13 (TPP TX)
- Pin 14 (3.3V_Logic_supply)
- USB Programming Cable
- USB Cable Installation
- Antennas
- External Antenna
- On-board Antenna
- Additional Specifications
- Dimensions: Gridstream S4SBR 25-1681 / 25-1682
- Dimensions: Gridstream S4SBR 25-1683 / 25-1684
- Configuration & Testing
- Development Environment
- Gridstream SCADA/DA Series 4 Single Board Radio Interface Board
- Transparent Port (TPP) Connection
- LAN Packet Port (LPP) Connection
- Onboard Regulator
- Digital Input
- Analog Input
- General Usage Instruction
- Gridstream S4SBR Logic
- Control Register 1
- Control Register 2
- Digital I/O Functionality
- Analog Input Functionality
- Memory Location
- Manufacturer Contact Information
- External Antenna Specifications
- Ground Plane Specifications
- RF External Antenna Cable Specifications
- External Antenna Radiation Pattern
- Identifying a Reverse-Polarity Connector
- Specifications
- On-board Antenna Radiation Pattern
- FCC Class B
- RF Exposure
- Industry Canada
- Host FCC Label Requirement
- Data Sheets
- Whip Antenna P/N 16-1000-0
- RF External Antenna Cable P/N 21-1000-0
Chapter 3 - Development Environment Landis+Gyr
30 98-1138 Rev AD Gridstream SCADA/DA S4SBR
Gridstream S4SBR Control Registers 1 and 2 located at memory locations 7700h and 7700h in the
radio using a DCW.
Control Register 1
D1-Input
Pin D1 at 7700h (Bits 0-3), if 7700h (Bit 0 = “0”) Input then read Control at 7700h (Bits 2-3)
• If Control = “00” - General Purpose => Read state at 7700h (Bit 1) and report
• If Control = “01” - Rising Edge => Read count at 7706h (four bytes) and report
• If Control = “10” - Falling Edge => Read count at 7706h (four bytes) and report
• If Control = “11” - Either Edge => Read count at 7706h (four bytes) and report
D1-Output
Pin D1 at 7700h (Bits 0-3), if 7700h (Bit 4 = “0”) Output then verify Control = “00”
• If NOT “00” => Report Error in configuration
• If “00” General Purpose => Set state at 7700 (Bit 1) and report
Pin D2 at 7700h (Bits 4-5), if 7700h (Bit 4 = “0”) Input then read state at 7700 (Bit 5) and report
D2-Input
Pin D2 at 7700h (Bits 4-5), if 7700h (Bit 4 = "0") Input then read state at 7700 (Bit 5) and report
D2-Output
Pin D2 at 7700h (Bits 4-5), if 7700h (Bit 4 = “1”) Output then set state at 7700 (Bit 5) and report
Control Register 2
A1-Input
Pin A1 at 7701h (Bits 0-2), if 7701 (Bit 0 = “0”) Input then read Control at 7701h (Bit 2)
• If Control = “0” - General Purpose => Read state at 7701h (Bit 1) and report
• If Control = “1” - Analog to Digital Channel => Read channel at 7702h (2 bytes) and report
A1-Output
Pin A1 at 7701h (Bits 0-2), if 7701 (Bit 0 = “1”) Output then read Control at 7701h (Bit 2)
• If Control = “0” - General Purpose => Set state at 7701h (Bit 1) and report
• If Control = “1” - Analog to Digital Channel => Report Error in configuration
A2-Input
Pin A2 at 7701h (Bits 4-6), if 7701 (Bit 4 = “0”) Input then read Control at 7701h (Bit 6)
• If Control = “0” - General Purpose => Read state at 7701h (Bit 5) and report
draft 29 Jan 2013