# Precision Timing Concepts ## Time Synchronization Protocols ### NTP (Network Time Protocol) - **Accuracy**: Typically 1-10ms over Internet, <1ms on LAN - **Protocol**: UDP port 123 - **Versions**: NTPv3 (RFC 1305), NTPv4 (RFC 5905) - **Stratum Levels**: 0 (reference) to 15 - **Key Features**: - Client/server and peer modes - Symmetric key authentication - Broadcast/multicast support ### PTP (Precision Time Protocol) - **Standard**: IEEE 1588-2008 (PTPv2) - **Accuracy**: Sub-microsecond with hardware support - **Transport**: Ethernet (Layer 2) or UDP (Layer 3) - **Clock Types**: - Ordinary Clock (OC) - Boundary Clock (BC) - Transparent Clock (TC) - **Messages**: - Sync, Follow_Up - Delay_Req, Delay_Resp - Announce, Management ### IRIG Time Codes - **Types**: IRIG-A, B, D, E, G, H - **IRIG-B**: Most common (100 pps, 1kHz carrier) - **Encoding**: Amplitude modulated or DC level shift - **Information**: Time of year, year, status bits - **Accuracy**: Microsecond level ### GPS Time - **Source**: Global Positioning System satellites - **Accuracy**: ~40ns relative to UTC - **Outputs**: - NMEA sentences (serial data) - PPS (Pulse Per Second) - 10MHz reference (some receivers) - **Considerations**: - GPS-UTC offset (leap seconds) - Antenna placement - Signal acquisition time ### PPS (Pulse Per Second) - **Signal**: Rising edge aligned to second boundary - **Accuracy**: Typically <100ns jitter - **Uses**: - Clock discipline - Frequency reference - Time interval measurements ## Clock Synchronization Algorithms ### Phase-Locked Loop (PLL) - Adjusts local clock frequency - Minimizes phase error - Smooth corrections ### Frequency-Locked Loop (FLL) - Adjusts clock rate - Good for initial synchronization - Handles large offsets ### Kalman Filter - Optimal state estimation - Handles noisy measurements - Predicts clock behavior ### Clock Discipline Algorithm 1. Measure time offset 2. Calculate frequency error 3. Apply corrections 4. Monitor stability ## Time Scales ### UTC (Coordinated Universal Time) - International time standard - Includes leap seconds - Based on atomic clocks ### TAI (International Atomic Time) - Continuous time scale - No leap seconds - UTC = TAI - leap_seconds ### GPS Time - Started January 6, 1980 - No leap seconds - GPS = TAI - 19 seconds ## Precision Timing Metrics ### Accuracy - Closeness to true time - Absolute time error ### Precision - Repeatability of measurements - Standard deviation ### Stability - Allan deviation - Time deviation (TDEV) - Maximum time interval error (MTIE) ### Jitter - Short-term variations - Peak-to-peak or RMS ### Wander - Long-term variations - Low-frequency drift ## Implementation Considerations ### Hardware Timestamping - PHY or MAC layer stamps - Reduces software latency - Critical for PTP ### Interrupt Latency - PPS edge detection - Deterministic response - Priority management ### Clock Sources - Crystal oscillators (XO) - Temperature compensated (TCXO) - Oven controlled (OCXO) - Chip scale atomic clocks (CSAC) ### Network Considerations - Asymmetric delays - Packet delay variation - Queue management - Traffic prioritization