CME8000-BUS-LP-04 C-Max, CME8000-BUS-LP-04 Datasheet

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... CME8000 receiver IC Short Description The CME8000 is a BiCMOS integrated straight through receiver with build in very high sensitivity and a pre-decoding of the time signal transmitted from WWVB, DCF77, JJY40, JJY60, MSF and HBG. The receiver is prepared for multi-frequency and country reception by using an integrated logic. The CME8000 is connected to an in-built micro-controller in the CME-BUS module which is programmed with a pre-defined serial interface protocol ...

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... CME8000-BUS Data Sheet Module Layout – CME8000-BUS-LP-03 – RS485 (half duplex) Module Layout – CME8000-BUS-LP-04 – RS485 (full duplex) SPEC No. Revision CME8000- B6 BUS VCC GND READY VCC GND READY State C-MAX printed 26.07.05 26.07.2005 C-MAX Version Page English ...

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... Tx Figure 1. Typical Circuit for Single-line Serial Communication Bus I/O Specifications • TTL interface • Half-duplex • Asynchronous • 9600 baud, no parity, 1 start bit, 8 data bits, 1 stop bit SPEC No. Revision CME8000- B6 BUS +5V 2N4403 4.7K State C-MAX printed 26.07.05 26.07.2005 C-MAX Rx +5V U ...

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... Maximum duration of reception Number of receptions Time interval between receptions st Start time of 1 reception Reception activation mode Reception comparison SPEC No. Revision CME8000- B6 BUS st auto reception of the day can all be defined by the host. Dual band: JJY40 / JJY60 MSF / DCF WWVB 00:00:00 (UTC time) ...

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... RD_RTC_STATE R 0x66 RD_TIME R 0x70 – 0x78 SET_RX_CTRL W 0x80 SET_RX_TIME W 0x81 SET_RX_DUR W 0x82 SET_NO_CMP W 0x83 RD_RX_STATE R 0x84 SPEC No. Revision CME8000- B6 BUS Data Included in command Bit7 Bit6 Bit5 Bit4 Bit3 N/A S40 S20 S10 S8 N/A Min40 Min20 Min10 Min8 DST N/A H20 H10 H8 ...

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... Y1 to Y80 represent BCD value of the year. Range is 00h to 99h. If the set year does not comply with the date and month inside the RTC, the date is automatically set to the last date of the set month and year. SPEC No. Revision CME8000- B6 BUS State C-MAX printed 26 ...

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... C0,C1 : sets the number of auto receptions per day . 00 – there will be no auto receptions 01 – there will be 1 auto reception per day 10 – there will be 2 auto receptions per day 11 – there will be 3 auto receptions per day SPEC No. Revision CME8000- B6 BUS Bit5 Bit4 Bit3 RC Board address ...

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... BUSY (set to 1) i.e. under reception, then at the same time also showing the BSI value (refreshed every second), or ii) the unit is not under reception (OFF set to 1), or SPEC No. Revision CME8000- B6 BUS State C-MAX printed 26.07.05 26.07.2005 C-MAX ...

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... This layer of the communication system is appropriate for such technologies as a UART multi-drop environment. SPEC No. Revision CME8000- B6 BUS Action Are there bytes to send? ...

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... In this case, the first data byte will be the master’s address so the slave will know which device to respond to. o The CRC is a 16-bit CRC. STX, the CRC byte pair and the ETX. See the Appendix for the CRC source code. o ETX is one byte with a value of 0x03. SPEC No. Revision CME8000- B6 BUS ...

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... The arrows indicate the data direction. Table 3 is for a command sequence, Table 4 is for a request sequence, and Table 5 is for a response to request sequence. For the request sequence and response to request sequence, the first data byte is the transmitter’s address. SPEC No. Revision CME8000- B6 BUS State C-MAX printed 26 ...

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... CME8000-BUS Data Sheet STX Slave Address Packet Length Command Data Byte 1 Data Byte 2 Data Byte n CRC MSB CRC LSB ETX SPEC No. Revision CME8000- B6 BUS Table 3. Command Sequence. Command Sequence Master [0x02] 1 byte [0x06] 1 byte [0x06] 1 byte [0x06] 1 byte [0x06] 1 byte [0x06] ...

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... STX Requestee Address Packet Length Request Command Data Byte 1 – Requestor’s Address (Transmitter) Data Byte 2 Data Byte n CRC MSB CRC LSB ETX SPEC No. Revision CME8000- B6 BUS Table 4. Request Sequence. Request Sequence [0x02] 1 byte [0x06] 1 byte [0x06] 1 byte [0x06] 1 byte [0x06] ...

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... Packet Length Command to which Requestee is Responding Data Byte 1 – Requestee’s Address (Transmitter) Data Byte 2 Data Byte n CRC MSB CRC LSB ETX SPEC No. Revision CME8000- B6 BUS Table 5. Response to Request Sequence. Response to Request Sequence [0x02] 1 byte [0x06] 1 byte [0x06] 1 byte [0x06] 1 byte [0x06] ...

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... Table 7 and 8 are an example of a version number request and version number reply sequence. For this example, please assume the following: Requestor’s Address 0x15 Requestee’s Address 0x13 Product Identifier Version Number SPEC No. Revision CME8000- B6 BUS 5-burner model = 0x05 5.8 = 0x05 0x08 State C-MAX printed 26.07.05 26 ...

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... Table 7. Example of Version Number Request Sequence. Requestor STX Requestee Address Packet Length Request Command Data Byte 1 – Requestor’s Address (Transmitter) CRC MSB CRC LSB ETX SPEC No. Revision CME8000- B6 BUS Request Sequence [0x02] [0x13] [0x06] [0x08] [0x06] [0x01] [0x06] [0x15] [0x06] ...

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... Requestee is Responding Data Byte 1 – Requestee’s Address (Transmitter) Data 2 – Product Identifier Data 3 – Version Number 1 Data 4 – Version Number 2 CRC MSB CRC LSB ETX SPEC No. Revision CME8000- B6 BUS Response to Request Sequence [0x02] [0x15] [0x06] [0x0] [0x06] [0x01] [0x06] [0x13] ...

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... CME8000-BUS-LP SPEC No. Revision CME8000- B6 BUS PCB with antenna casing with edge connector CME8000-BUS-LP-01 CME8000-BUS-GS-01 CME8000-BUS-LP-02 CME8000-BUS-GS-02 CME8000-BUS-LP-03 CME8000-BUS-LP-04 CME8000-BUS-GS State C-MAX printed 26.07.05 26.07.2005 C-MAX sealed casing (IP67) with 4m cat5 wire CME8000-BUS-GV-01 CME8000-BUS-GV-02 -- CME8000-BUS-GV-03 -- CME8000-BUS-GV-04 Dimension ...