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Ordering number : EN4870E
CMOS LSI
LC72700E, LC72700G
Mobile FM Multiplex Broadcast Receiver LSI
Overview
The LC72700E and LC72700G are data decoder LSIs for receiving DARCTM mobile FM multiplex broadcasts. A multi-function, compact, adjustment-free system can be implemented in two chips by combining this LSI with the LV3400M band-pass filter IC, which extracts the multiplex components from a composite FM signal.
Functions and Features
* Delay detection scheme using a 1T delay * Built-in error correction function using a 2T delay * Digital PLL clock regeneration
* Block and frame synchronization detection with a settable synchronization protection count * Settable block identifier code (BIC) detection precision * Error correction using (272,190) codes * Built-in frame memory for product codes * Support for both serial and parallel data I/O * Package LC72700E: QFP48E LC72700G: QFP48G
* CCB is a trademark of SANYO ELECTRIC CO., LTD. * CCB is SANYO's original bus format and all the bus addresses are controlled by SANYO.
Package Dimensions
unit: mm 3156-QFP48E
[LC72700E]
unit: mm 3229-QFP48G
[LC72700G]
SANYO: QFP48E
SANYO: QFP48G
Specifications
Absolute Maximum Ratings at Ta = 25C
Parameter Maximum supply voltage Input voltage Symbol VDD max VIN1 VIN2 VOUT1 VOUT2 IOUT Pd max Topr Tstg VDD CL, CE, and DI pins Input pins other than VIN1 DO pin Output pins other than VOUT1 BCLOCK, FCLOCK, and DO pins Ta 85C Conditions Ratings -0.3 to +7.0 -0.3 to +7.0 -0.3 to VDD + 0.3 -0.3 to +7.0 -0.3 to VDD + 0.3 0 to 4.0 400 -40 to +85 -55 to +125 Unit V V V V V mA mW C C
Output voltage Output current Allowable power dissipation Operating temperature Storage temperature
SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters
TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110 JAPAN
63097HA (OT)/D3095HA (OT)/D1594TH (OT) No.4870-1/14
LC72700E, LC72700G Allowable Operating Ranges at Ta = -40 to +85C, VSS = 0 V
Parameter Supply voltage Input high level voltage Symbol VDD VIH1 VIH2 Input low level voltage Oscillator frequency Input sensitivity Serial I/O*2 Clock low level time Clock high level time Data setup time Data hold time CE wait time CE setup time CE hold time Data latch switching time Data output time Parallel I/O*3 RE wait time RDY wait time RDY output time PST input time PST hold time I/O direction switching time tRE tDRD tRDY tPS tPH tDIR RE RE, RDY RDY PST PST, DAT0 to 7, PORT0 to 2 PST, DAT0 to 7 0.3 10 0.5 0.8 1 0.5 2.2 0.8 s s s s ns s tCL tCH tSU tHD tEL tES tEH tLC tDDO DO, CE 277 CL CL CL, DI CL, DI CL, CE CL, CE CL, CE 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 555 s s s s s s s s ns VIL1 VIL2 FOSC VXI VDD MSK, DAT0 to 7, RE, PST, S/P, PORT0 to 2, RST, TEST1, TEST2 CL, CE, DI MSK, DAT0 to 7, RE, PST, S/P, PORT0 to 2, RST, TEST1, TEST2 CL, CE, DI *1 XIN, sine wave, capacitive coupling 400 Conditions min 4.5 0.7 VDD 0.7 VDD VSS VSS 7.2 1500 typ 5.0 max 5.5 VDD 5.5 0.3 VDD 0.3 VDD Unit V V V V V MHz mVrms
Note: 1. This LSI operates at a frequency of 7.2 MHz 250 ppm. 2. See the parallel data timing. 3. See the parallel data timing.
Electrical Characteristics in the Allowable Operating Ranges
Parameter High level output voltage Symbol VOH1 VOH2 VOL1 Low level output voltage VOL2 VOL3 High level input current IIH1 IIH2 IIL1 Low level input current IIL2 IIL3 Output off leakage current Hysteresis voltage Built-in feedback resistance Pull-up resistance Current drain IOFF VHIS Rf Rpu IDD Conditions IO = 1 mA, FILCK, CLK, DATA IO = 2 mA, DAT0 to 7, BCLOCK, FCLOCK, BL-CK, FC-CK, INT-R, RDY, RDY0 IO = 1 mA, for the VOH1 applicable pins IO = 2 mA, for the VOH2 applicable pins IO = 2 mA, DO VIN = 5.5 V, CE, CL, DI VIN = VDD, input pins except IIH1 VIN = VSS, CE, CL, DI VIN = VSS, inputs with pull-up resistors, RE, PST, PORT0 to 2, S/P VIN = VSS, MSK, RST VO = VDD, DO MSK, CL, CE, DI, RST XIN, XOUT RE, PST, PORT0 to 2, S/P 0.1 VDD 1.0 50 16 25 -100 -1 5 min VDD - 1.0 VDD - 0.4 1.0 0.4 0.4 1 1 -1 typ max Unit V V V V V A A A A A A V M k mA
No. 4870-2/14
LC72700E, LC72700G Block Diagram
MSK signal input
Error correction block
1T delay Clock regeneration 2T delay MSK error correction PN decoding Data
Synchronization regeneration
Timing control
Error correction
Address Output control (CPU interface)
Demodulation block
Memory cell
(Serial I/O)
(Parallel I/O)
Pin Assignment
No. 4870-3/14
LC72700E, LC72700G Pin Descriptions
Pin No. 3 29 30 31 44 8 9 37 38 39 40 42 Symbol MSK CL CE DI RST TEST1 TEST2 PST PORT0 PORT1 PORT2 S/P 76 kHz MSK signal input CCB serial interface Clock input Data control input Data input Input System reset input pin (negative logic) Test pin 1 (normally connected to ground) Test pin 2 (normally connected to ground) Parallel IF mode data settings Port address 0 Port address 1 Port address 2 Serial/parallel IF switch (Serial mode when high) Input 25 RE Parallel IF mode data output control signal input
A02414
Function
I/O
I/O Circuit
Input
1 5 6 21 22 23 24 26 27 35 13 14 15 16 17 18 19 20
FILCK CLK DATA BCLOCK FCLOCK BL-CK FC-CK RDY RDY0 INT-R DAT0 DAT1 DAT2 DAT3 DAT4 DAT5 DAT6 DAT7
Reference clock output for the LV3400M Clock regeneration monitor output Demodulated data monitor output Outputs a high level during block synchronization Outputs a high level during frame synchronization Block start signal output Frame start signal output Parallel IF data output enable signal Parallel IF data output enable signal Output data external CPU interrupt signal Parallel IF data output pin 0 Parallel IF data output pin 1 Parallel IF data output pin 2 Parallel IF data output pin 3 Parallel IF data output pin 4 Parallel IF data output pin 5 Parallel IF data output pin 6 Parallel IF data output pin 7 I/O Output
32
DO
CCB serial interface data output
Output
46 47
XIN XOUT
System clock oscillator crystal connection
Input Output
2, 34, 43 36, 45, 48 4, 7, 10 11, 12, 28 33, 41
VDD VSS NC
Power supply (+4.5 to +5.5 V) Ground pin Not connected
-- -- --
No. 4870-4/14
LC72700E, LC72700G Serial Data I/O Scheme 1. CCB Format The figure shows the Sanyo audio LSI serial bus format. Data is input and output over a CCB (computer control bus). This LSI uses an 8-bit address CCB format.
I/O mode Address B0 0 B1 1 B2 0 B3 1 A0 1 A1 1 A2 1 A3 1 16-bit control data input Function
Input
Output
1
1
0
1
1
1
1
1
Data output
I/O mode is set.
2. Serial Data Input Timing
Internal data
3. Serial Data Output Timing
Note: * The DO pin is normally open. Since the DO pin is an n-channel open-drain output, the time for the data value to change from the low level to the high level depends on the value of the pull-up resistor used.
No. 4870-5/14
LC72700E, LC72700G 4. Serial Control Data Input Setting Values The input data consists of 16 bits (DI0 to DI15) of which the upper 8 bits (DI8 to DI15) are the control address and the lower 8 bits (DI0 to DI7) are the input data.
Address DI11 0 DI10 0 DI9 0 DI8 0 Upper 4 bits Lower 4 bits Upper 4 bits Lower 4 bits Upper 4 bits Lower 4 bits Upper 5 bits Lower 3 bits 0 to 189 (8 bits)
Register
Data Back allowed errors Forward allowed errors Back protection count Forward protection count Back protection count Forward protection count -- Initial threshold value
Default setting 2 2 1 7 1 7 -- 7 0
Allowed error count
Block error protection count
0
0
0
1
Frame error protection count Error correction initial threshold value Readout (output) block number
0
0
1
0
0 0
0 1
1 0
1 0
Note: 1. The data in address bits DI12 to DI15 is ignored. 2. The value of the data sent to set the protection count must be one less than the desired protection count. In the default example shown above, the block forward protection count will be 8 and the frame back protection count will be 2. When the value is set to 0, the protection count will be 1. Since a protection count of 0 is meaningless the LSI ignores this value. 3. The initial threshold value is the initial value used when executing error correction at a variable threshold. There is no need to change this value unless some special experiment is being performed. The threshold value can be set to a value from 9 to 15 according to a three-bit field. Therefore a data value of 7 sets the threshold value to 15 and a data value of 1 sets the threshold value to 9. 4. The readout block number is transferred when the skip function is used. 5. Addresses other than those listed above (e.g. 0101) are special addresses unique to this LSI and are for test mode and other functions. These addresses should not be used. 6. The default values are the values loaded into internal registers when a reset signal (RST) is received. These are recommended values and do not require modification in normal operation. If the default values are used then there will be no need to implement control microprocessor software that inputs control data.
No. 4870-6/14
LC72700E, LC72700G Structure of the Output Data 1. The output data consists of a total of 288 bits (36 bytes). The first two bytes are status information. 2. CNT1 and CNT2 are both output LSB first. 3. Corrected data is output in order starting with the first bit in each block. 4. The BIC code is not output. 5. These points hold for both serial and parallel mode. *: The CPU can easily select data by first checking the content of the status information when data is read out. Data that is not required does not have to be read; rather, the CPU can cancel the remainder of the readout operation. (The CPU can simply ignore data until the next interrupt.)
288 bits (36 bytes) Corrected data 272 bits (34 bytes)
*Bits 0 and 1 are unused and contain invalid data.
First block data output (Only when VH is low.)
However, this bit is only valid when only horizontal correction is applied, i.e. when VH = 0.
Normal data Parity data Correction OK Error (uncorrectable data) Indicates data for which frame synchronization was not achieved Indicates frame synchronized data Indicates data for which block synchronization was not achieved Indicates block synchronized data Output that was only corrected horizontally (synchronized output) Output that was vertically corrected
BLN7 to BLN0: Expresses the block number or the parity block number of the output data. The block numbers within a single frame range from 0 to 189, and the parity block numbers from 0 to 81. Note that parity block data is not output for vertically corrected data.
No. 4870-7/14
LC72700E, LC72700G Parallel Mode Data I/O Methods Data is input and output using the parallel data interface I/O pins, INT-R (pin 35), RE (pin 25), RDY (pin 26), RDY0 (pin 27) and DATn (pins 13 to 20). 1. Basic Data Output Procedure (1) Interrupt handling starts on the falling edge of INT-R. (2) Set RE low. (3) RDY goes low temporarily and then goes high on output ready. (4) After RDY goes high, read in the data from DATn. (5) Return RE to high. Repeat steps (2) to (5) until 36 bytes of data have been read in. Note: The period that RDY is low is 2.2 s (typical). The CPU does not need to monitor RDY if it can adjust its timing. Also, RDY0 is a signal that goes low when output is ready and goes high when RE returns to high. The software logic for data acquisition can be simplified if the RDY (or RDY0) signal is input to the CPU WAIT pin. 2. Parallel Data Output Timing
INT-R
3. Parallel Data Output Timing Stipulations
4. Data Input in Parallel Mode To store data in parallel mode, set the internal register address of the data to be stored in PORT0 to PORT2 (pins 38 to 40) and set the PST pin (pin 37) low. Then input the data to DATn (pins 13 to 20). The PORT0 to PORT2 inputs and the data to be stored are acquired by the LSI on the rising edge of the PST signal. When the PST pin is low, the DAT0 to DAT7 pins function as input pins. Note that the PST pin data store cycle must be 1 s or longer. See the section on page 6 serial data I/O for notes and terminology descriptions concerning the data stored.
No. 4870-8/14
LC72700E, LC72700G
PORT2 0
PORT1 0
PORT0 0
Item Allowed error count Block error protection count Frame error protection count Error correction initial threshold value Readout block no. Upper 4 bits Lower 4 bits Upper 4 bits Lower 4 bits Upper 4 bits Lower 4 bits Upper 4 bits Lower 3 bits 0 to 189 (8 bits)
Set data Back allowed errors Forward allowed errors Back protection count Forward protection count Back protection count Forward protection count -- Initial threshold value
Default value 2 2 1 7 1 7 -- 7 0
0
0
1
0
1
0
0 1
1 0
1 0
4. Control Data Timing in Parallel Mode
PORT0 to 2 Register set
DAT0 to 7
Input data
PST
DAT pin I/O direction
Output

Output
500 to 800 ns
tps 300 ns
Handling Pins for the Unused Mode when the CPU Interface is Specified 1. When Serial Mode is Specified
Pin PST PORT0 to 2 DATA0 to 7 RDY RDY0 RE Pin No. (37) (38 to 40) (13 to 20) (26) (27) (25) Pull-up resistor input Pull-up resistor input Output direction (fixed at the low level) Fixed at a high-level output Fixed at a high-level output Pull-up resistor input Pin state Handling Leave open or connect to the power-supply (VDD) Leave open or connect to the power-supply (VDD) Leave open Leave open Leave open Leave open or connect to the power-supply (VDD)
2. When Parallel Mode is Specified
Pin CL CE DI DO Pin No. (29) (30) (31) (32) Input pin Input pin Input pin Open-drain output in the off state Pin state Handling Connect to the power supply or ground Connect to the power supply or ground Connect to the power supply or ground Connect to ground
Note:** 1. The data values shown above are for the state immediately following a reset operation. 2. The INT-R pin (pin 35) signal is always output regardless of the mode. 3. Since the S/P pin (pin 42) has a built-in pull-up resistor, serial mode will be selected if it is left open.
No. 4870-9/14
LC72700E, LC72700G
Circuit Operation at Reset
1. Reset Signal The reset operation is executed by holding the RST pin input level under VIL for 300 ns or longer when the powersupply voltage (VDD) is over 3.4 volts. (See the figure.) The reset operation is necessary to run this LSI.
VDD voltage
RST
2. Pin Outputs during a Reset Low-level outputs: ...FILCK (1), CLK (5), DAT0 (13) to DAT7 (20), BCLOCK (21), FCLOCK (22), BL-CK (23), FC-CK (24), D0 (32) High-level outputs: ...RDY (26), RDYO (27), INT-R (35), XOUT (47) Note: In serial mode, the DAT0 to DAT7 pins are held at the low level at all times. In parallel mode, these pins output low levels during a reset.
3. Reset Operating Ranges The output pins are stipulated to operate as described in item 2 above according to a reset signal. All the LSI internal registers go the reset state. While the shift registers for 1T and 2T delay also go to the reset state, memory cells are not affected. However, since the memory refresh operation is stopped, data cannot be maintained. The crystal oscillator circuit is not stopped. 4. Data Input Following a Reset The serial or the parallel input control circuit becomes capable of operating (accepting data) one clock cycle (about 278 ns at 3.6 MHz: i.e., the LSI's main clock) after the reset completes. Output Data (basic operation concerning error correction) Error correction using (272, 190) codes is performed for every block (272 bits) of received data. Data is output immediately after error correction. This is referred to as horizontal correction. If the data could not be corrected by horizontal correction, correction is performed in field units using product codes. This is referred to as vertical correction. Since the horizontal correction output is output for each received block, it is an effective scheme for applications in which the received data is desired quickly, such as in synchronous broadcasting. Vertical correction is only performed when frame synchronization is achieved. Also, vertical correction is not performed when all the packet (block) data has been completely corrected by horizontal correction. Since vertical correction is performed after one frame (272 blocks) of data has been accumulated, normally about 5 seconds is required from data reception to the output of corrected data. When post-horizontal correction data is output, all data blocks, including the parity block, are output. Post-vertical correction output data does not include parity block data, but rather only the data in the data blocks (190 blocks of data) is output. Note that when either frame synchronization is not achieved or horizontal correction completes and vertical correction is not performed, the data that is output could be called post-vertical correction data. However, the content of that data will be identical to post-horizontal correction data.
No. 4870-10/14
LC72700E, LC72700G Interface: Basic Control Items To reduce internal memory requirements this LSI limits the data buffer (RAM) area to the minimum required. Since data received by the LSI is written to the buffer with no gaps, post-correction data that should be read may be overwritten by new data if there are any delays in data readout. The output timings for vertically and horizontally corrected data for this LSI are stipulated as follows. 1. When the output data is ready, the LSI sets the DO pin low and drops the INT-R pin to low. 2. In data output, there are periods during which only horizontal data can be read out and periods during which horizontal and vertical data can be read out time-division multiplexed. 3. The data transfer must be completed within 9 ms after the DO pin goes low. When only horizontal data is output, data can be transferred during a period of about 18 ms. Even if the controlling CPU is still reading out data, the data in the output buffer can be overwritten by the next data after the stipulated period has elapsed. 4. The amount of data that can be read in a single transfer request (INT-R) for both vertical and horizontal data is limited to only one block of data. In principle, vertical data is read out in order starting with block number 1 after vertical correction has completed. Note that the parity block data is not output.
INT-R
DO pin when only horizontal data is output
(horizontal data)
Horizontal data output period DO pin when both horizontal and vertical data are output
Data not guaranteed period (horizontal data)
Horizontal data output period
Vertical data output period
Figure 1 External Interface Basic Timing Data Output Timing (as related to reception data) Figure 2 shows the timing relationships between the reception data block start signal (BL-CK: pin 23) and the interrupt control signal (INT-R: pin 25). However, this figure ignores the delay component with respect to the actual received signal due to the demodulation operation in MSK demodulation blocks. Block synchronization is established by recognizing BIC codes. As shown in Figure 2, the data from the nth packet (block) is available for output during reception of the next packet, i.e. packet n+1. When using this LSI, be sure to keep in mind the fact that the block start signal (BL-CK) output by the LSI is output after the BIC code in the actual reception data has been received. Figure 3 shows the output timing for vertically corrected data. Vertical correction is used when a complete frame of data is stored in memory, frame synchronization is established, and all the data packets could not be corrected by horizontal correction. The frame start defines the timing for the start of vertical correction execution. Horizontal correction is performed for each packet during reception of packets (blocks) 1 to 28 in the nth frame, and data is passed to the CPU interface. Vertical correction is performed for the previous frame (frame n-1) data during the idle periods in the reception process. (However, note that frame and block synchronization must not be lost.) Vertically corrected data is output at the rate of one block for every block received in order starting with the 29th packet (block). A total of 190 blocks of data are output. Of the data in the FM multiplex broadcast data structure, only the data blocks are output, and the last block, the 190th block is output while the 218th block is being received.
No. 4870-11/14
LC72700E, LC72700G DO (pin 32) Operation (only in serial mode) Figure 4 shows the changes in the DO signal when data is not output by the CPU. When the output data is ready, DO goes low and returns to the high level about 6 ms later. The data becomes invalid about 9 ms after either DO or INT-R goes low, and data can still be read even after DO goes high. (Horizontal data (only horizontal data) can be read out for a period of about 18 ms.) The reason DO goes high after 6 ms is so that the CPU interface can handle applications where the CPU does not use the interrupt port. When DO is low, there is guaranteed to be a window of at least 3 ms during which data can be transferred. (This eases software operation.) INT-R can be used as an edge trigger interrupt. Note that the 68 s period prior to the leading edge of INT-R is the LSI's output buffer write period, and that data read during this period is not guaranteed.
Packet n-1 Reception data Data in packet n Packet n+1
Data not guaranteed Output period for data in packet n-1
Figure 2 Reception Data, Block Synchronization, and Data Output Timing
Frame n-1 Reception block No.
Frame n
Output period for the vertically corrected data from the previous frame
Figure 3 Vertically Corrected Data Output Timing
No. 4870-12/14
LC72700E, LC72700G
DO transfer request (vertical correction in progress)
(horizontal data) (Period during which data is not guaranteed
(horizontal data)
DO transfer request (horizontal data)
(vertical data)
(horizontal data)
Figure 4 DO Signal Changes when Data is not Output (serial mode) Skip Function For post-vertical correction data, only the data block data (190 blocks) can be output. The skip function jumps over the output data block sequence and allows required data blocks to be output quickly. However, note that the number specified must be for a block that is ahead of the block currently being read out. If a previous block number is specified, the post-vertical correction output data for that frame cannot be guaranteed. Skip operation is valid during the next post-vertical correction data output after block number specification. If the skip address is transferred after vertical data output is ready, such as at point B in Figure 5, output data is not skipped at that point, but rather the data skip is performed at the point C, which is the output time for the next vertical data.
(horizontal)
(vertical)
(horizontal)
(vertical)
(horizontal)
(vertical)
Skip address S transfer
Figure 5 Address Skip
No. 4870-13/14
LC72700E, LC72700G
The DARC (Data Radio Channel) FM multiplex broadcast technology was developed by NHK (Japan Broadcasting Corporation). DARC is a registered trademark of NHK Engineering Service (NHK-ES). A separate contract with NHK-ES is required to produce and market electronic equipment that uses the DARC technology. Note that electronic equipment that uses the DARC technology may display the logo shown elsewhere on this page.
s No products described or contained herein are intended for use in surgical implants, life-support systems, aerospace equipment, nuclear power control systems, vehicles, disaster/crime-prevention equipment and the like, the failure of which may directly or indirectly cause injury, death or property loss. s Anyone purchasing any products described or contained herein for an above-mentioned use shall: Accept full responsibility and indemnify and defend SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors and all their officers and employees, jointly and severally, against any and all claims and litigation and all damages, cost and expenses associated with such use: Not impose any responsibility for any fault or negligence which may be cited in any such claim or litigation on SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors or any of their officers and employees jointly or severally. s Information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed for volume production. SANYO believes information herein is accurate and reliable, but no guarantees are made or implied regarding its use or any infringements of intellectual property rights or other rights of third parties. This catalog provides information as of July, 1997. Specifications and information herein are subject to change without notice. No. 4870-14/14

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