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ON Semiconductor NCN51205GEVB User Manual

Knx evaluation board
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NCN51205GEVB
KNX Evaluation Board
User's Manual
Introduction
The NCN5120 Development Board is the ideal solution
for
developing
your
KNX
ON Semiconductor KNX transceiver NCN5120. The
development board contains the NCN5120 KNX
Transceiver which handles the transmission and reception of
data on the bus. It will also generate all necessary voltages
to power the board and external loads.
It also contains a microcontroller with debug interface for
custom firmware development. Up to 8 external switches
can be monitored and up to 4 external loads can be
controlled. A voltage between 3.3 V and 21 V is available to
drive the external loads.
The NCN5120 Development Board assures safe coupling
to and decoupling from the KNX bus. Bus monitoring warns
the external microcontroller for loss of power so that critical
data can be stored in time.
Figure 1. NCN5120 Development Board
© Semiconductor Components Industries, LLC, 2013
May, 2013 − Rev. 0
application
with
the
1
http://onsemi.com
EVAL BOARD USER'S MANUAL
Key Features
9,600 baud KNX Communication Speed
Supervision of KNX Bus Voltage
High Efficient 3.3 V to 21 V Selectable DC−DC
Converter to Drive External Loads
Monitoring of Power Regulators
No Additional Power Supply Required
Buffering of Sent Data Frames
(Extended Frames Supported)
Selectable UART or SPI Interface to Host Controller
Selectable UART and SPI Baud Rate to Host Controller
Optional CRC on UART to the Host
Optional MARKER Character to the Host
Optional Direct Coupling of RxD and TxD to Host
(Analog Mode)
Auto Polling (Optional)
Temperature Monitoring
Contains Freely Programmable Microcontroller for
Custom Applications
Monitoring of 8 External Switches
Controlling of 4 External (High Voltage) Loads
(e.g. LED's)
One Freely Usable Push Button
3 Freely Usable LED's
Operating Temperature Range −25°C to +85°C
Publication Order Number:
EVBUM2186/D

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Summary of Contents for ON Semiconductor NCN51205GEVB

  • Page 1 • Supervision of KNX Bus Voltage ON Semiconductor KNX transceiver NCN5120. The • High Efficient 3.3 V to 21 V Selectable DC−DC development board contains the NCN5120 KNX Converter to Drive External Loads Transceiver which handles the transmission and reception of •...

  • Page 2: Block Diagram

    NCN51205GEVB BLOCK DIAGRAM Connector J4 3.3 V Clock RESETb, SAVEb NCN5120 MSP430 Interface UART or SPI Adj. Reg. 3 LED + Switch LED1,2,3, SW1 Figure 2. NCN5120 Development Board Block Diagram CONNECTOR DESCRIPTION Table 1. CONNECTOR LIST AND DESCRIPTION Connector...

  • Page 3: Electrical Specification

    NCN51205GEVB ELECTRICAL SPECIFICATION Recommend Operation Conditions Operating ranges define the limits for functional outside these operating ranges is not guaranteed. Operating operation and parametric characteristics of the development outside the recommended operating ranges for extended board. Note that the functionality of the development board periods of time may affect device reliability.
  • Page 4 NCN51205GEVB Table 3. DC PARAMETERS (continued) (The DC parameters are given for a development board operating within the Recommended Operating Conditions unless otherwise specified.) Convention: currents flowing in the circuit are defined as positive. Con- Remark/Test nector Conditions Symbol Pin(s)
  • Page 5 NCN51205GEVB Table 4. AC PARAMETERS (The AC parameters are given for a development board operating within the Recommended Operating Conditions unless otherwise specified.) Symbol Pin(s) Parameter Remark/Test Conditions Unit Power Supply VBUS1 VBUS1 Filter Time (Figure x3) − − BUS_FILTER...
  • Page 6 NCN51205GEVB DD2H DD2L <VDD2> Comments: <VDD2> is an internal signal which can be verified with the System State Service. Figure 5. VDD2 Undervoltage Threshold 20VH 20VL <V20V> Comments: <V20V> is an internal signal which can be verified with the System State Service.
  • Page 7 NCN51205GEVB <TW> SAVEB RESETB Analog State Comments : −<TW> is an internal signal which can be verified with the System State Service. −No SPI / UART communication possible when RESETB is low! −It’s assumed all voltage supplies are within their operating condition.

  • Page 8: Application Schematic

    NCN51205GEVB APPLICATION SCHEMATIC Figure 10. Schematic of NCN5120 Development Board (Part 1) http://onsemi.com...
  • Page 9 NCN51205GEVB APPLICATION SCHEMATIC Figure 11. Schematic of NCN5120 Development Board (Part 2) http://onsemi.com...
  • Page 10 NCN51205GEVB Figure 12. Top Layer of NCN5120 Development Board Figure 13. Bottom Layer of NCN5120 Development Board http://onsemi.com...
  • Page 11 NCN51205GEVB Figure 14. Inner Layer 1 of NCN5120 Development Board Figure 15. Inner Layer 2 of NCN5120 Development Board http://onsemi.com...
  • Page 12 NCN51205GEVB Figure 16. Top Silkscreen of NCN5120 Development Board Figure 17. Bottom Silkscreen of NCN5120 Development Board http://onsemi.com...
  • Page 13 NCN51205GEVB Table 5. BILL OF MATERIALS (Note 1) Reference Part Number Value Voltage Power Type Manufacturer Footprint CON1 243-211 Wago C1, C2 C1005COG1H100D 10 pF 6.3 V ±5% Ceramic Multilayer 0402 C3, C4, C7 C1005X5R0J104M 100 nF 6.3 V ±20%...
  • Page 14 NCN51205GEVB Table 5. BILL OF MATERIALS (continued)(Note 1) Reference Part Number Value Voltage Power Type Manufacturer Footprint R20, R28, RC0402JR−xx1KL 1 kW 0.0625 W ±5% Thick Film Yageo 0402 RC0402JR−xx100KL 100 kW 0.0625 W ±5% Thick Film Yageo 0402 MCIPTG33K−V...

  • Page 15: Functional Description

    NCN51205GEVB FUNCTIONAL DESCRIPTION Because the NCN5120 Development Board contains the Above formula gives only an estimation and will mainly NCN5120 KNX Transceiver (KNX Certified) no details on depend on the firmware loaded on the microcontroller (U2, KNX will be given in this document. Detailed information see Figure 11).
  • Page 16 DC/DC converter of NCN5120. Be aware that if the layer. By no means will ON Semiconductor provide any of microcontroller is not powered, NCN5120 could start the higher layer stacks (Network Layer, Transport Layer, powering the microcontroller over the IO-pins.
  • Page 17 NCN51205GEVB 9. Is it possible to bypass the microcontroller on the 6. What is the usage of ARXD and ATXD KNX REV5 board and connect NCN5120 directly (Figure 11)? with our microcontroller board? These pins have no meaning and cannot be used.
  • Page 18 NCN51205GEVB Application Layer Presentation Layer Session Layer Transport Layer Network Layer Logic Link Control Data Link Layer Media Access Control Physical Layer Figure 19. OSI Model Reference http://onsemi.com...

  • Page 19: Board Dimensions

    PUBLICATION ORDERING INFORMATION LITERATURE FULFILLMENT: N. American Technical Support: 800−282−9855 Toll Free ON Semiconductor Website: www.onsemi.com Literature Distribution Center for ON Semiconductor USA/Canada Order Literature: http://www.onsemi.com/orderlit P.O. Box 5163, Denver, Colorado 80217 USA Europe, Middle East and Africa Technical Support: Phone: 303−675−2175 or 800−344−3860 Toll Free USA/Canada...
  • Page 20 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: ON Semiconductor NCN51205GEVB...

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