Triguard SC300E TDI16EIA 16-Channel Input Digital Input Termination Card (TDI16EIA) Issue 3 October 2005 Introduction Purpose The TDI16EIA 16-channel digital input termination card acts as an interface between the digital signalling devices in the field device and the digital input circuits of an SC300E chassis.
Triguard SC300E SPECIFICATION Model Power supply inputs TDI16EIA Has two separate connectors (FS1and FS2) for redundant dc power supplies. The positive supplies feed a common bus via auctioneering diodes. When auctioneering takes place outside the card, the required power may be supplied via a single connector. No. of digital input channels 16 Nominal field supply voltage 24Vdc Maximum field supply voltage 33Vdc Current rating 50mA per channel.
Triguard SC300E TDI16EIA 16-Channel D/I Termination Card ENVIRONMENTAL SPECIFICATIONS The maximum ambient temperature measured at the hottest point within the Triguard system shall not be greater than 60 degrees centigrade Temperature operating: +5°C to +60°C Temperature storage: -25°C to +70°C Humidity: 5% to 95% non-condensing at ambient < 40°C EMC/RFI Immunity: Tested and certified to IEC 1131-Part 2 1994 Vibration/Shock: Tested and certified to IEC 1131-Part 2 1994 Certification: General Certi
Triguard SC300E TECHNICAL DESCRIPTION PHYSICAL The TDI16EIA comprises a PCB assembly mounted in a moulded carrier that can be snapped onto all commercially available styles of DIN mounting rail. Connection to the chassis backplane is via a multicore cable terminated at either end by a DIN41612 connector. Figure 22 shows the TDI16EIA with the DIN41612 connector attached and mounted on rail EN 50022 type NS 35/5. Figure 2-1 identifies the main components on the PCB.
Triguard SC300E TDI16EIA 16-Channel D/I Termination Card Figure 2-2 Leading dimensions and mounting detail TDI16EIA October 2005 – Issue 3 5
Triguard SC300E Figure 2-3 Circuit diagram showing one channel EXTERNAL CONNECTIONS Fixed Terminal 6 Details Field terminals 1 to 16(+) and 1 to 16(-) Connector, Elco 38-way, female Chassis connector J1 Connector,34-way, DIN41612,female Field power supply inputs FS1 and FS2 Header, 2-way, Molex Minifit Jr Alarm output PL1 Header, 2-way, Molex KK Ground terminal TS1 Provision for M3 ring terminal TDI16EIA October 2005 – Issue 3
Triguard SC300E TDI16EIA 16-Channel D/I Termination Card THEORY OF OPERATION Figure 2-3 is a circuit diagram showing a typical digital input channel. Power supplies for the termination cards are normally provided by a Power Distribution Panel PDD24 which performs diode auctioneering of its dual redundant power supplies. Power for the digital input circuits (normally from the PDD24) is fed to input FS1 or FS2.
Triguard SC300E TRANSIENT SUPPRESSION A transient suppressor is fitted across each digital input channel input to the SC300E chassis. It provides a discharge path for transient energy pulses that may appear on the digital input line following lightning strikes etc. The suppressor is effectively a zener diode with a breakdown voltage just above that of the normal supply voltage. In normal operation, therefore, the suppressor does not conduct (apart from leakage current).
Triguard SC300E TDI16EIA 16-Channel D/I Termination Card El connector J2 DIN41612 Connector J1 Fuse +ve supply to field device Digital input from field device Digital output to chassis 1 J2-B J2-A J1-2a J1-2c F1 2 J2-D J2-C J1-4a J1-4c F2 3 J2-F J2-E J1-6a J1-6c F3 4 J2-J J2-H J1-8a J1-8c F4 5 J2-L J2-K J1-10a J1-10c F5 6 J2-N J2-M J1-12a J1-12c F6 7 J2-R J2-P J1-14a J1-14c F7 8 J2-T J2-S J1-16a J1-16c F8 9 J2-V J2-U J1-18a J1-18c F9 10 J2-X J2-W
Triguard SC300E SERVICING SCOPE The TDI16EIA contains all-passive circuitry that is extremely robust. Servicing operations will therefore not normally extend beyond the replacement of failed fuses. CAUTION Before replacing a failed fuse, ascertain the cause of failure, and take the appropriate remedial action. CONFIGURATION No configurable links.
Triguard SC300E TDI16EIA 16-Channel D/I Termination Card SERVICE SUPPORT SPARE PARTS Spare parts and technical advice can be obtained from your local area offices.
