RUGGEDCOM RP110 RUGGEDCOM RS416 RUGGEDCOM RSG907R RUGGEDCOM RSG909R RUGGEDCOM RSG908C RUGGEDCOM RSG910C RUGGEDCOM RSG2288 RUGGEDCOM RSG2488 RUGGEDCOM RST2228 RUGGEDCOM RST2228P RUGGEDCOM RMC8388 https://support.industry.siemens.com/cs/ww/en/view/109480109 Siemens Industry Online Support
Siemens Canada Ltd. 2015 All rights reserved This entry is from the Siemens Industry Online Support. The general terms of use (http://www.siemens.com/terms_of_use) apply. Security information Siemens provides products and solutions with industrial security functions that support the secure operation of plants, solutions, machines, equipment and/or networks. They are important components in a holistic industrial security concept. With this in mind, Siemens products and solutions undergo continuous development. Siemens recommends strongly that you regularly check for product updates. For the secure operation of Siemens products and solutions, it is necessary to take suitable preventive action (e.g. cell protection concept) and integrate each component into a holistic, state-of-the-art industrial security concept. Third-party products that may be in use should also be considered. For more information about industrial security, visit http://www.siemens.com/industrialsecurity. To stay informed about product updates as they occur, sign up for a productspecific newsletter. For more information, visit http://support.industry.siemens.com. Table of contents 1 Introduction... 4 2 RUGGEDCOM RP110... 5 2.1 IRIG-B... 5 2.2 Programmable Pulse Output (PPx)... 5 2.3 NTP Client... 5 2.4 Oscillator... 5 3 RUGGEDCOM RS416... 6 3.1 IRIG-B... 6 3.2 Programmable Pulse Output (PPx)... 6 3.3 IEEE 1588 (PTPv2)... 7 3.4 NTP Client... 7 3.5 Oscillator... 7 4 RUGGEDCOM RSG2288 & RUGGEDCOM RSG2488... 8 4.1 GPS Receiver... 8 4.2 IRIG-B... 8 4.3 Programmable Pulse Output (PPx)... 9 4.4 IEEE 1588 (PTPv2)... 10 4.5 NTP Client... 10 4.6 Oscillator... 10 5 RUGGEDCOM RMC8388... 11 Entry-ID: 109480109, V 2.0, 08/2018 2
Siemens Canada Ltd. 2015 All rights reserved 5.1 IRIG-B... 11 5.2 Programmable Pulse Output (PPx)... 11 5.3 IEEE 1588 (PTPv2)... 12 5.4 NTP Client... 12 5.5 Oscillator... 12 6 RUGGEDCOM RST2228/RST2228P... 13 6.1 IEEE 1588 (PTPv2)... 13 6.2 NTP Client... 13 6.3 Oscillator... 13 7 RUGGEDCOM RSG907R/RSG909R... 14 7.1 IEEE 1588 (PTPv2)... 14 7.2 NTP Client... 14 7.3 Oscillator... 14 8 RUGGEDCOM RSG908C/RSG910C... 15 8.1 IEEE 1588 (PTPv2)... 15 8.2 NTP Client... 15 8.3 Oscillator... 15 9 Links & Literature... 16 10 History... 16 Entry-ID: 109480109, V 2.0, 08/2018 3
1 Introduction 1 Introduction The specifications detailed in this document pertain to the following PTP-capable devices in the RUGGEDCOM ROS family of products: RUGGEDCOM RP110 RUGGEDCOM RS416 RUGGEDCOM RSG907R RUGGEDCOM RSG908C RUGGEDCOM RSG909R RUGGEDCOM RSG910C RUGGEDCOM RSG2288 RUGGEDCOM RSG2488 RUGGEDCOM RMC8388 RUGGEDCOM RST2228 RUGGEDCOM RST2228P s are provided for comparison purposes only. For technical specifications for the complete device, refer to the associated Installation Guide on www.siemens.com. Entry-ID: 109480109, V 2.0, 08/2018 4
2 RUGGEDCOM RP110 2 RUGGEDCOM RP110 2.1 IRIG-B The following details PTP-related specifications for the RUGGEDCOM RP110: Table 2-1 Output Signals IRIG-B PWM Accuracy Unmodulated IRIG-B Supported on BNC TTL output connector B000-to-B007 supported formats Supported IRIG-B extensions: IEEE 1344, C37.118-2005, C37.118-2011 TTL levels output (for a 50 Ω load max 2.4V, I OH = -48 ma) 50 Ω BNC female connector NTP server time source: ± 5 ms RMS, standard deviation of 600 us (1-σ) 2.2 Programmable Pulse Output (PPx) The user configurable PPx feature is available for RUGGEDCOM ROS v4.2.0 and higher, and with FPGA version 0117 and higher. Programmable pulse width: 1 to 200 milliseconds Programmable pulse interval: 1 to 86400 seconds PPx start time 2.3 NTP Client ± 5 ms RMS, standard deviation of 600 us (1-σ) 2.4 Oscillator 50 ppm XO (Oscillator) Entry-ID: 109480109, V 2.0, 08/2018 5
3 RUGGEDCOM RS416 3 RUGGEDCOM RS416 3.1 IRIG-B The following details PTP-related specifications for the RUGGEDCOM RS416: Table 3-1 Input Signals Output Signals IRIG-B PWM Accuracy IRIG-B PWM Holdover Drift (Constant Room Temperature) Cable Compensation Unmodulated IRIG-B Supported on BNC TTL Input Connector B000-to-B007 supported formats Supported IRIGB extensions: IEEE 1344, C37.118-2005, C37.118-2011 TTL levels input: input impedance > 200 KΩ 50 Ω BNC female connector Unmodulated IRIG-B Supported on BNC TTL Output Connector Supported on DB9 Serial Card and RJ45 Serial Card B000-to-B007 supported formats Support IRIG-B extensions: IEEE 1344, C37.118-2005, C37.118-2011 TTL levels output (for a 50 Ω load max 2.4V, I OH = -48 ma) 50 Ω BNC female connector IRIGB PWM time source: ± 1 us RMS, standard deviation of 300 ns (1-σ) 5 microsecond per minute (worst case). Test results: 1 hour duration: 40 microseconds 8 hours duration: 2.0 milliseconds 24 hours duration: 7.0 milliseconds System supports cable compensation feature via RUGGEDCOM ROS to take into account the coaxial cable length. 3.2 Programmable Pulse Output (PPx) The user configurable PPx feature is available for RUGGEDCOM ROS v4.2.0 and higher, and with FPGA version 0146 and higher. Supported on BNC TTL output connector Programmable pulse width: 1 to 200 milliseconds Programmable pulse interval: 1 to 86400 seconds PPx start time Entry-ID: 109480109, V 2.0, 08/2018 6
3 RUGGEDCOM RS416 3.3 IEEE 1588 (PTPv2) Table 3-2 PTPv2 Slave Accuracy ± 2.5 ms RMS, standard deviation of 600 us (1-σ) 3.4 NTP Client ± 5 ms RMS, standard deviation of 600 us (1-σ) 3.5 Oscillator 50 ppm XO (Oscillator) Entry-ID: 109480109, V 2.0, 08/2018 7
4 RUGGEDCOM RSG2288 & RUGGEDCOM RSG2488 4 RUGGEDCOM RSG2288 & RUGGEDCOM RSG2488 The following details PTP-related specifications for the RUGGEDCOM RSG2288 and RUGGEDCOM RSG2488: 4.1 GPS Receiver Table 4-1 Time Accuracy at PPS Output Position Accuracy ± 300 ns RMS, standard deviation of 50 ns (1-σ) ~ 3 meters @ 50% CEP (Circular Error Probable) Satellite Tracking Up to 14 satellites tracking, C/A code L1 frequency (1575.42 MHz) Acquisition (Lock) Time Holdover Drift Cable Compensation System takes ~25 minutes to acquire UTC time 1 microsecond per minute (worst case). Test results: 1 hour duration: 18 microseconds 8 hours duration: 82 microseconds 24 hours duration: 480 microseconds System supports a cable compensation feature via RUGGEDCOM ROS to take into account the coaxial cable length. 4.2 IRIG-B Table 4-2 Input Signals Output Signals Unmodulated IRIG-B B000-to-B007 supported formats Supported IRIG-B extensions: IEEE 1344, C37.118-2005, C37.118-2011 TTL levels input: input impedance > 200 kω 50 Ω BNC female connector Unmodulated IRIG-B B000-to-B007 supported formats Support IRIG-B extensions: IEEE 1344, C37.118-2005, C37.118-2011 TTL levels output (for a 50 Ω load max 2.4V, I OH = -48 ma) 50 Ω BNC female connector Modulated IRIG-B 1 KHz AM modulated output B120-to-B127 supported formats Entry-ID: 109480109, V 2.0, 08/2018 8
4 RUGGEDCOM RSG2288 & RUGGEDCOM RSG2488 IRIG-B PWM Accuracy IRIG-B AM Accuracy IRIG-B PWM Holdover Drift (Constant Room Temperature) Cable Compensation Supported IRIG-B extensions: IEEE 1344, C37.118-2005, C37.118-2011 Required load > 200 Ω Output current < 15 ma 6Vp-p, 3:1 ratio 50 Ω BNC female connector GPS time source: ± 1 us RMS, standard deviation of 100 ns (1-σ) IRIGB PWM time source: ± 1 us RMS, standard deviation of 300 ns (1-σ) GPS time source: ± 50 us RMS, standard deviation of 2 us (1-σ) IRIGB PWM time source: ± 50 us RMS, standard deviation of 2 us (1-σ) 1 microsecond per minute (worst case). Test results: 1 hour duration: 18 microseconds 8 hours duration: 278 microseconds 24 hours duration: 544 microseconds System supports cable compensation feature via RUGGEDCOM ROS to take into account the coaxial cable length. 4.3 Programmable Pulse Output (PPx) The user configurable PPx feature is available for RUGGEDCOM ROS v4.2.0 and higher, and with FPGA version 0173 (RSG2288) or version 0232 (RSG2488) and higher. Programmable pulse width: 1 to 200 milliseconds Programmable pulse interval: 1 to 86400 seconds PPx start time Entry-ID: 109480109, V 2.0, 08/2018 9
4 RUGGEDCOM RSG2288 & RUGGEDCOM RSG2488 4.4 IEEE 1588 (PTPv2) Table 4-3 PTPv2 Slave Accuracy PTPv2 P2P TC Accuracy PTPv2 E2E TC Accuracy PTPv2 BC Accuracy PTPv2 Slave Accuracy with 16-Hop P2P TC (Power Profile) PTPv2 Slave Holdover Drift ± 150 ns RMS, standard deviation of 25 ns (1-σ) ± 50 ns RMS, standard deviation of 10 ns (1-σ) ± 250 ns RMS, standard deviation of 50 ns (1-σ) ± 400 ns RMS, standard deviation of 125 ns (1-σ) ± 250 ns RMS, standard deviation of 50 ns (1-σ) 1 microsecond per minute (worst case), test results: 1 hour duration: 42 microseconds 8 hours duration: 240 microseconds 24 hours duration: 645 microseconds 4.5 NTP Client ± 4 ms RMS, standard deviation of 500 us (1-σ) 4.6 Oscillator 1 ppm TCXO (Temperature Compensated Oscillator) Entry-ID: 109480109, V 2.0, 08/2018 10
5 RUGGEDCOM RMC8388 5 RUGGEDCOM RMC8388 5.1 IRIG-B The following details PTP-related specifications for the RUGGEDCOM RMC8388: Table 5-1 Output Signals IRIG-B PWM Accuracy IRIG-B AM Accuracy Unmodulated IRIG-B Supported on BNC TTL output connector B000-to-B007 supported formats Supported IRIG-B extensions: IEEE 1344, C37.118-2005, C37.118-2011 TTL levels output (for a 50 Ω load max 2.4V, I OH = -48 ma) Two 50 Ω BNC female connectors Modulated IRIG-B Supported on BNC AM output connector 1 KHz AM modulated output B120-to-B127 supported formats Support IRIG-B extensions: IEEE 1344, C37.118-2005, C37.118-2011 Required load > 200 Ω Output current < 15 ma 6 Vp-p, 3:1 ratio One 50 Ω BNC female connector IEEE 1588 time source: Supported on BNC TTL output connector ± 1 us RMS, standard deviation of 100 ns (1-σ) IEEE 1588 time source: Supported on BNC AM output connector ± 60 us RMS, standard deviation of 2 us (1-σ) 5.2 Programmable Pulse Output (PPx) The user configurable PPx feature is available for RUGGEDCOM ROS v4.2.0 and higher, and with FPGA version 0130 and higher. Supported on BNC TTL output connectors Programmable pulse width: 1 to 200 milliseconds Programmable pulse interval: 1 to 86400 seconds PPx start time Entry-ID: 109480109, V 2.0, 08/2018 11
5 RUGGEDCOM RMC8388 5.3 IEEE 1588 (PTPv2) Table 5-2 PTPv2 Slave Accuracy Supported on BNC TTL output connectors ± 150 ns RMS, standard deviation of 25 ns (1-σ) 5.4 NTP Client ± 2 ms RMS, standard deviation of 500 us (1-σ) 5.5 Oscillator 1 ppm TCXO (Temperature Compensated Oscillator) Entry-ID: 109480109, V 2.0, 08/2018 12
6 RUGGEDCOM RST2228/RST2228P 6 RUGGEDCOM RST2228/RST2228P The following details PTP-related specifications for the RUGGEDCOM RST2228/RST2228P: 6.1 IEEE 1588 (PTPv2) Table 6-1 PTPv2 Slave: PTPv2 P2P TC Accuracy PTPv2 E2E TC Accuracy PTPv2 BC PTPv2 Slave Accuracy with 16-Hop P2P TC (Power Profile) PTPv2 Slave Holdover Drift ± 50 ns RMS, standard deviation of 10 ns (1-σ) ± 250 ns RMS, standard deviation of 50 ns (1-σ) 6.2 NTP Client ± 8 ms RMS, standard deviation of 500 us (1-σ) 6.3 Oscillator 1 ppm TCXO (Temperature Compensated Oscillator) Entry-ID: 109480109, V 2.0, 08/2018 13
7 RUGGEDCOM RSG907R/RSG909R 7 RUGGEDCOM RSG907R/RSG909R The following details PTP-related specifications for the RUGGEDCOM RSG907R/RSG909R: 7.1 IEEE 1588 (PTPv2) Table 7-1 PTPv2 Slave: PTPv2 one-step P2P TC Accuracy PTPv2 two-step P2P TC Accuracy PTPv2 E2E TC Accuracy PTPv2 BC PTPv2 Slave Accuracy with 16-Hop P2P TC (Power Profile) PTPv2 Slave Holdover Drift 7.2 NTP Client ± 50 ns RMS, standard deviation of 10 ns (1-σ) ± 250 ns RMS, standard deviation of 10 ns (1-σ) ± 100 ns RMS, standard deviation of 50 ns (1-σ) ± 8 ms RMS, standard deviation of 500 us (1-σ) 7.3 Oscillator 1 ppm TCXO (Temperature Compensated Oscillator) Entry-ID: 109480109, V 2.0, 08/2018 14
8 RUGGEDCOM RSG908C/RSG910C 8 RUGGEDCOM RSG908C/RSG910C The following details PTP-related specifications for the RUGGEDCOM RSG908C/RSG910C: 8.1 IEEE 1588 (PTPv2) Table 8-1 PTPv2 Slave: PTPv2 one-step P2P TC Accuracy PTPv2 two-step P2P TC Accuracy PTPv2 E2E TC Accuracy PTPv2 BC PTPv2 Slave Accuracy with 16-Hop P2P TC (Power Profile) PTPv2 Slave Holdover Drift 8.2 NTP Client ± 50 ns RMS, standard deviation of 10 ns (1-σ) ± 250 ns RMS, standard deviation of 10 ns (1-σ) ± 100 ns RMS, standard deviation of 50 ns (1-σ) ± 8 ms RMS, standard deviation of 500 us (1-σ) 8.3 Oscillator 1 ppm TCXO (Temperature Compensated Oscillator) Entry-ID: 109480109, V 2.0, 08/2018 15
9 Links & Literature 9 Links & Literature Table 9-1 Topic Title \1\ Siemens Industory Online Support \2\ Download page of the entry https:\\support.automation.siemens.com https://support.industry.siemens.com/cs/ww/en/view/109480109 \3\ Installation Guides RUGGEDCOM RP110 Installation Guide RUGGEDCOM RS416 Installation Guide RUGGEDCOM RSG907R Installation Guide RUGGEDCOM RSG909R Installation Guide RUGGEDCOM RSG908C Installation Guide RUGGEDCOM RSG910C Installation Guide RUGGEDCOM RSG2288 Installation Guide RUGGEDCOM RSG2488 Installation Guide RUGGEDCOM RMC8388 Installation Guide RUGGEDCOM RST2228 Installation Guide RUGGEDCOM RST2228P Installation Guide 10 History Table 10-1 Version Date Modification V1.0 10/2015 First version V2.0 08/2018 Added RSG907R, RSG908C, RSG909R, RSG910C, RST2228, RST2228P Entry-ID: 109480109, V 2.0, 08/2018 16