CXR702080 CMOS 32-bit Single Chip Microcomputer Description The CXR702080 is a CMOS 32-bit microcomputer integrating on a single chip an A/D converter, serial interface, timer, bus interface unit, DMA controller, memory stick interface, and as well as basic configurations like a 32-bit RISC CPU, ROM, RAM, and I/O port. This also provides the idle/sleep/stop functions that enable lower power consumption. Features • CPU • Minimum instruction cycle • Incorporated ROM • Incorporated RAM • Peripheral functions — Bus interface unit — DMA controller — A/D converter — Serial interface — Timers — Memory stick interface — Beep output circuit — External interruption • Standby mode • Package 176 pin LFLGA (Plastic) SR11 series 32-bit RISC CPU core 54.3ns (fSRC: 18.432MHz) 30.5µs (fTEX: 32.768kHz) 256K bytes 16K bytes 4 channels 8-bit 4-analog input, successive approximation system Clock synchronization, 2 channels Clock synchronization, 1 channel (Incorporated 64-byte buffer RAM) Asynchronization, 2 channels 8-bit timer, 8 channels 16-bit capture timer, 3 channels 8-bit time-base timer Clock prescaler 16-bit watchdog timer 11 channels (polarity selection and both edge detection possible) Idle/sleep/stop 176-pin plastic LFLGA Structure Silicon gate CMOS IC Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. –1– E01701A22-PS AVDD –2– UART (CH1) TxD1 RxD1 8-BIT TIMER (CH7) 8-BIT TIMER (CH6) 8-BIT TIMER (CH5) 8-BIT TIMER (CH4) 8-BIT TIMER (CH3) 8-BIT TIMER/COUNTER (CH2) 8-BIT TIMER (CH1) 3∗1 RAM 16K BYTES TOKEI PRESCALER WATCHDOG TIMER 6 ROM 256K BYTES 6 8 6 4 8 6 6 4 8 PORT A PORT B PORT C PORT D PORT E PORT F PORT G PORT H PORT I 8∗1 ∗2 2∗2 2∗2 BUS INTERFACE UNIT 2 8 19 8 16 24 8 8 7 3 8 4 PORT J PORT K PORT L PORT M PORT N PORT O 16-BIT CAPTURE TIMER (CH2) 16-BIT CAPTURE TIMER (CH1) 16-BIT CAPTURE TIMER (CH0) DMAC (CH3) DMAC (CH2) DMAC (CH1) DMAC (CH0) EXTERNAL BUS ∗1 The number of causes of interrupts generated from the module is as shown. But the number of causes input to the interrupt controller differs from the shown becauses of OR. ∗2 A part of the interrupt signals generated from UART, MEMORY STICK INTERFACE is input to the interrupt controller via DMA depending on applications. BEEP T3 T1 EC2 8-BIT TIMER/COUNTER (CH0) MEMORY STICK INTERFACE UART (CH0) TxD0 RxD0 MSBS MSDIO MSIDR MSSCLK EC0 SERIAL INTERFACE UNIT (CH2) RAM SCS2 SI2 SO2 SCK2 SERIAL INTERFACE UNIT (CH0) A/D CONVERTER AVREF SERIAL INTERFACE UNIT (CH1) 4 AVSS SCS1 SI1 SO1 SCK1 SCS0 SI0 SO0 SCK0 AN0 to AN3 10 ∗1 TDO TRST RTCK TCK TMS TDI ARM7TDMI CPU CORE MSINS INT0 to INT9 INTERRUPT CONTROLLER TXOUT TX TEX XOUT XTAL EXTAL RST VDD VSS CLOCK GENERATOR/ SYSTEM CONTROLLER Block Diagram CT0ED0 CT0ED1 CT1ED0 CT1ED1 CT2ED0 CT2ED1 DACK0 DREQ0 DACK1 DREQ1 A0 to A23 D0 to D15 CS0 to CS7 RD WE LWR/LB UWR/UB WAIT MA0 to MA18 MD0 to MD7 MCS0, MCS1 MRD MWE CXR702080 CXR702080 Pin Assignment (Top View) 176-pin LFLGA package • Pin Assignment 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 R 88 87 86 83 80 77 73 69 65 61 57 53 49 45 44 R P 89 90 82 81 78 72 68 64 60 56 52 48 47 46 43 P N 93 91 85 84 79 76 71 67 63 59 55 51 41 38 42 N M 97 92 95 94 75 74 70 66 62 58 54 50 40 37 39 M L 101 96 99 98 34 35 32 36 L K 105 100 103 102 30 31 28 33 K J 109 104 107 106 26 27 24 29 J H 113 108 111 110 22 23 20 25 H G 117 112 115 114 18 19 16 21 G F 121 116 119 118 14 15 12 17 F E 124 120 123 122 10 11 8 13 E D 127 125 128 138 142 146 150 154 158 162 166 6 7 4 9 D C 130 126 129 139 143 147 151 155 159 163 167 172 173 3 5 C B 131 134 135 136 140 144 148 152 156 160 164 169 170 2 1 B A 132 133 137 141 145 149 153 157 161 165 168 171 174 175 176 A 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 –3– CXR702080 • Pin Assignment Table Pin No. Pin position Symbol Pin No. Pin position Symbol Pin No. Pin position Symbol 1 B1 PB3 38 N2 PG2/CT1ED0 75 M11 PK7/D15 2 B2 PB4 39 M1 PG3/CT1ED1 76 N10 VDD 3 C2 PB5 40 M3 PG4/CT2ED0 77 R10 TEX 4 D2 PB6 41 N3 PG5/CT2ED1 78 P11 TX 5 C1 PB7 42 N1 PH0/TxD0 79 N11 VSS 6 D4 VDD 43 P1 PH1/RxD0 80 R11 CS0 7 D3 VSS 44 R1 PH2/TxD1 81 P12 CS1 8 E2 PC0 45 R2 PH3/RxD1 82 P13 RD 9 D1 PC1 46 P2 VDD 83 R12 LWR/LB 10 E4 PC2 47 P3 VSS 84 N12 UWR/UB 11 E3 PC3 48 P4 PI0/MD0 85 N13 MRD 12 F2 PC4 49 R3 PI1/MD1 86 R13 MWE/WE 13 E1 PC5 50 M4 PI2/MD2 87 R14 MCS0 14 F4 PD0 51 N4 PI3/MD3 88 R15 VDD 15 F3 PD1 52 P5 PI4/MD4 89 P15 VSS 16 G2 PD2 53 R4 PI5/MD5 90 P14 MA0 17 F1 PD3 54 M5 PI6/MD6 91 N14 MA1/A9 18 G4 VDD 55 N5 PI7/MD7 92 M14 MA2/A10 19 G3 VSS 56 P6 VDD 93 N15 MA3/A11 20 H2 PE0/INT0 57 R5 VSS 94 M12 MA4/A12 21 G1 PE1/INT1 58 M6 PJ0/D0 95 M13 MA5/A13 22 H4 PE2/INT2 59 N6 PJ1/D1 96 L14 MA6/A14 23 H3 PE3/INT3 60 P7 PJ2/D2 97 M15 MA7/A15 24 J2 PE4/INT4 61 R6 PJ3/D3 98 L12 MA8/A16 25 H1 PE5/INT5 62 M7 PJ4/D4 99 L13 PL0/MA9/A17 26 J4 PE6/INT6 63 N7 PJ5/D5 100 K14 PL1/MA10/A18 27 J3 PE7/INT7 64 P8 PJ6/D6 101 L15 PL2/MA11/A19 28 K2 PF0/EC0 65 R7 PJ7/D7 102 K12 PL3/MA12/A20 29 J1 PF1/T1 66 M8 VDD 103 K13 PL4/MA13/A21 30 K4 PF2/EC2 67 N8 VSS 104 J14 PL5/MA14/A22 31 K3 PF3/T3 68 P9 PK0/D8 105 K15 PL6/MA15/A23 32 L2 PF4/BEEP 69 R8 PK1/D9 106 J12 VDD 33 K1 PF5/TXOUT 70 M9 PK2/D10 107 J13 VSS 34 L4 VDD 71 N9 PK3/D11 108 H14 MA16 35 L3 VSS 72 P10 PK4/D12 109 J15 MA17 36 L1 PG0/CT0ED0 73 R9 PK5/D13 110 H12 MA18/A0 37 M2 PG1/CT0ED1 74 M10 PK6/D14 –4– 111 H13 A1 CXR702080 Pin No. Pin position 112 G14 113 Pin No. Pin position Pin No. Pin position A2 134 B14 TEST1 156 B7 PN5/SO1 H15 A3 135 B13 AN0 157 A8 PN6/SI1 114 G12 A4 136 B12 PM0/AN1 158 D7 PN7/SCS1/INT9 115 G13 A5 137 A13 PM1/AN2 159 C7 PO0/SCK2 116 F14 A6 138 D12 PM2/AN3 160 B6 PO1/SO2 117 G15 A7 139 C12 AVSS 161 A7 PO2/SI2 118 F12 A8 140 B11 AVREF 162 D6 PO3/SCS2 119 F13 VDD 141 A12 AVDD 163 C6 XOUT/CKO 120 E14 EXTAL 142 D11 TDI 164 B5 VDD 121 F15 XTAL 143 C11 TMS 165 A6 VSS 122 E12 VSS 144 B10 TRST 166 D5 NC 123 E13 MSDIO 145 A11 TCK 167 C5 NC 124 E15 MSBS 146 D10 RTCK 168 A5 PA0/WAIT 125 D14 MSSCLK 147 C10 TDO 169 B4 PA1/CS2 126 C14 MSDIR 148 B9 RST 170 B3 PA2/CS3 127 D15 MSINS 149 A10 VDD 171 A4 PA3/CS4 128 D13 DACK0 150 D9 VSS 172 C4 PA4/CS5 129 C13 DACK1 151 C9 PN0/SCK0 173 C3 PA5/MCS1 130 C15 DREQ0 152 B8 PN1/SO0 174 A3 PB0 131 B15 DREQ1 153 A9 PN2/SI0 175 A2 PB1 132 A15 TEST2 154 D8 PN3/SCS0/INT8 176 A1 PB2 133 A14 TEST0 155 C8 PN4/SCK1 Symbol Symbol –5– Symbol CXR702080 Pin Functions Symbol Functions I/O PA0/WAIT I/O / Input PA1/CS2 to PA4/CS5 I/O / Output PA5/MCS1 I/O / Output (Port A) 6-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (6 pins) Wait input for external bus Chip select output for external S bus (4 pins) Chip select output for external M bus. I/O (Port B) 8-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (8 pins) PC0 to PC5 I/O (Port C) 6-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (6 pins) PD0, PD1 Output PD2, PD3 I/O PB0 to PB7 PE0/INT0 to PE7/INT7 I/O / Input PF0/EC0 I/O / Input PF1/T1 I/O / Output PF2/EC2 I/O / Input PF3/T3 I/O / Output PF4/BEEP I/O / Output PF5/TXOUT I/O / Output PG0/CT0ED0 to PG5/ CT2ED1 I/O / Input (Port D) 4-bit open drain port. Lower 2 bits are for output; upper 2 bits are for I/O. (4mA drive) Upper 2 bits can be specified in 1-bit units. (4 pins) (Port E) 8-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (8 pins) (Port F) 6-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (6 pins) (Port G) 6-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (6 pins) –6– External interruption request input. (8 pins) External event input to 8-bit timer (CH0). 8-bit timer (CH1) output. External event input to 8-bit timer (CH2). 8-bit timer (CH3) output. Beep output. Sub oscillation output. Capture input of 16-bit capture timer. (6 pins) CXR702080 Symbol PH0/TxD0 I/O / Output PH1/RxD0 I/O / Input PH2/TxD1 I/O / Output PH3/RxD1 I/O / Input PI0/MD0 to PI7/MD7 PJ0/D0 to PJ7/D7 (Port H) 4-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (4 pins) I/O / I/O (Port I) 8-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (8 pins) I/O / I/O (Port J) 8-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (8 pins) PK0/D8 to PK7/D15 I/O / I/O A1 to A8 Output MA18/A0 Output / Output MA1/A9 to MA8/A16 Output / Output PL0/MA9/A17 to PL6/MA15/ A23 I/O / Output / Output MA0 Output MA16, MA17 Output AN0 Input PM0/AN1 to PM2/AN3 Functios I/O Input / Input (Port K) 8-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (8 pins) (Port L) 7-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (7 pins) UART (CH0) transmit data output. UART (CH0) receive data input. UART (CH1) transmit data output. UART (CH1) receive data input. Data bus for external M bus. (8 pins) Data bus for external S bus. (16 pins) Address bus output for external M bus (19 pins) Address bus output for external S bus. (24 pins) Analog input to A/D converter. (4 pins) (Port M) 3-bit input port. (3-pins) –7– CXR702080 Symbol I/O Functios PN0/SCK0 I/O / I/O Serial clock (CH0) I/O. PN1/SO0 I/O / Output Serial data (CH0) output. PN2/SI0 I/O / Input PN3/SCS0/ INT8 I/O / Input / Input PN4/SCK1 I/O / I/O PN5/SO1 I/O / Output PN6/SI1 I/O / Input PN7/SCS1/ INT9 I/O / Input / Input PO0/SCK2 I/O / I/O PO1/SO2 I/O / Output PO2/SI2 I/O / Input PO3/SCS2 I/O / Input CS0, CS1 Output Chip select output for external S bus. (2 pins) RD Output Read signal output for external S bus. LWR/LB Output / Output Write strobe signal output for D0 to D7. Strobe signal output indicates access to D0 to D7. UWR/UB Output / Output Write strobe signal output for D8 to D15. Strobe signal output indicates access to D8 to D15. MRD Output Read signal output for external M bus. MWE/WE Output / Output Write signal output for external M bus. Write signal output for external S bus. MCS0 Output Chip select output for external M bus. DACK0 Output Transfer request acknowledge signal output from DMA controller (CH0). DREQ0 Input Transfer request input to DMA controller (CH0). DACK1 Output Transfer request acknowledge signal output from DMA controller (CH1). DREQ1 Input Transfer request input to DMA controller (CH1). MSDIR Output Memory stick interface data I/O direction monitor. MSBS Output Memory stick interface bus state output. MSSCLK Output Memory stick interface clock output. MSDIO I/O Memory stick interface data I/O direction monitor. MSINS Input Memory stick interface card detection. TEST0 Input TEST1 Input TEST2 Input TDI Input (Port N) 8-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (8 pins) Serial data (CH0) input. Serial chip select (CH0) input. Serial clock (CH1) I/O. Serial data (CH1) output. Serial data (CH1) input. Serial chip select (CH1) input. (Port O) 4-bit I/O port. I/O can be specified in 1-bit units. Pull-up resistor can be incorporated through program in 1-bit units. (4 pins) External interruption request input. Serial clock (CH2) I/O. Serial data (CH2) output. Serial data (CH2) input. Serial chip select (CH2) input. Test. (Connect to Vss.) Data input for JTAG boundary scanning test. –8– External interruption request input. CXR702080 Symbol I/O Functions TMS Input Test mode control input for JTAG boundary scanning test. TRST Input Reset input for JTAG boundary scanning test. TCK Input Clock input for JTAG boundary scanning test. RTCK Output Clock output for JTAG boundary scanning test. TDO Output Data output for JTAG boundary scanning test. EXTAL Input XTAL Output Oscillation connector of main oscillation. (When a clock is supplied externally, input it to EXTAL; opposite phase clock should be input to XTAL.) XOUT/CKO Output / Output Main oscillation output. TEX Input TX Output Oscillation connector of main oscillation. (When a clock is supplied externally, input it to TEX; opposite phase clock should be input to TX.) RST I/O System reset. System clock output. NC NC. (Leave this pin open or connect to Vss.) AVDD Positive power supply for A/D converter. AVREF Input Reference voltage input for A/D converter. AVSS GND for A/D converter. VDD Positive power supply (Connect all twelve VDD pins to positive power supply.) VSS GND (Connect all twelve Vss pins to GND) –9– CXR702080 I/O Circuit Format for Pins Pin Circuit format After a reset Port A data Port A direction "0" after a reset PA0/WAIT Pull-up resistor Hi-Z "0" after a reset Internal data bus MPX Input data latch RD IP WAIT CS2 to CS5 MPX Port A data Port A function select "0" after a reset S bus pin active PA1/CS2 to PA4/CS5 MPX Port A direction Hi-Z "0" after a reset Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP MCS1 (M bus unused: CS7) MPX Port A data Port A function select "0" after a reset PA5/MCS1 Port A direction Hi-Z "0" after a reset Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD – 10 – IP CXR702080 Pin Circuit format After a reset Port B data Port B direction "0" after a reset PB0 to PB7 Hi-Z Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP Port C data Port C direction "0" after a reset PC0 to PC5 Hi-Z Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP Port D data PD0 PD1 Hi-Z Internal data bus RD Port D data PD2 PD3 Port D read select Hi-Z "0" after a reset Internal data bus MPX Input data latch RD – 11 – IP CXR702080 Pin Circuit format After a reset Port E data Port E direction "0" after a reset PE0/INT0 to PE7/INT7 Pull-up resistor Hi-Z "0" after a reset Internal data bus MPX Input data latch RD IP CMOS Schmitt input INT0 to INT7 Port F data Port F direction "0" after a reset PF0/EC0 PF2/EC2 Hi-Z Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP CMOS Schmitt input EC0, EC2 T1, T3, BEEP, TXOUT MPX Port F data Port F function select "0" after a reset PF1/T1 PF3/T3 PF4/BEEP PF5/TXOUT Port F direction Hi-Z "0" after a reset Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD – 12 – IP CXR702080 Pin Circuit format After a reset Port G data Port G direction PG0/CT0ED0 PG1/CT0ED1 PG2/CT1ED0 PG3/CT1ED1 PG4/CT2ED0 PG5/CT2ED1 "0" after a reset Pull-up resistor Hi-Z "0" after a reset Internal data bus MPX Input data latch RD IP CMOS Schmitt input CT0ED0, CT0ED1 CT1ED0, CT1ED1 CT2ED0, CT2ED1 TxD0, TxD1 MPX Port H data Port H function select "0" after a reset PH0/TxD0 PH2/TxD1 Port H direction Hi-Z "0" after a reset Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP Port H data Port H direction "0" after a reset PH1/RxD0 PH3/RxD1 Pull-up resistor Hi-Z "0" after a reset Internal data bus MPX Input data latch RD RxD0, RxD1 – 13 – IP CMOS Schmitt input CXR702080 Pin Circuit format After a reset MD0 to MD7 MPX Port I data Port I function select "1" after a reset M bus output enable MPX PI0/MD0 to PI7/MD7 Port I direction Hi-Z "0" after a reset Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP MD0 to MD7 D0 to D7 MPX Port J data Port J function select "1" after a reset S bus output enable MPX PJ0/D0 to PJ7/D7 Port J direction Hi-Z "0" after a reset Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP D0 to D7 D8 to D15 MPX Port K data Port K function select "1" after a reset S bus output enable MPX PK0/D8 to PK7/D15 Port K direction "0" after a reset Hi-Z Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD D8 to D15 – 14 – IP CXR702080 Pin Circuit format After a reset A1 to A8 Low A1 to A8 S bus pin active MA18 MA18/A0 MPX A0 Low S bus/M bus select MA1 to MA8 MA1/A9 to MA8/A16 MPX A9 to A16 Low S bus/M bus select MA9 to MA15 A17 to A23 MPX Port L data S bus/M bus select Port L function select PL0/MA9/A17 to PL6/MA15/A23 "1" after a reset S bus pin high impedance Low Port L direction "0" after a reset Pull-up resistor "0" after a reset Internal data bus Input data latch MPX IP RD MA0 MA16 MA17 MA0 Low MA16, MA17 Low – 15 – CXR702080 Pin Circuit format After a reset Analog input select ("1" after a reset) AN0 AN0 IP Input data latch Internal data bus RD PM0/AN1 to PM2/AN3 Hi-Z IP Port M function select "1" after a reset Hi-Z Analog input select ("0" after a reset) AN1, AN2, AN3 SCK0, SCK1 MPX Port N data Port N function select "0" after a reset SCKEN0, SCKEN1 MPX Port N direction PN0/SCK0 PN4/SCK1 "0" after a reset Hi-Z Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP CMOS Scmitt input SCK0, SCK1 SO0, SO1 MPX Port N data Port N function select "0" after a reset SOEN0, SOEN1 MPX PN1/SO0 PN5/SO1 Port N direction Hi-Z "0" after a reset Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD – 16 – IP CXR702080 Pin Circuit format After a reset Port N data Port N direction "0" after a reset PN2/SI0 PN6/SI1 Hi-Z Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP SI0, SI1 Port N data Port N direction "0" after a reset PN3/SCS0/INT8 PN7/SCS1/INT9 Pull-up resistor Hi-Z "0" after a reset Internal data bus MPX Input data latch RD IP CMOS Schmitt input SCS0, SCS1 INT8, INT9 SCK2 MPX Port O data Port O function select "0" after a reset SCKEN2 MPX Port O direction PO0/SCK2 Hi-Z "0" after a reset Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD SCK2 – 17 – IP CMOS Schmitt input CXR702080 Pin Circuit format After a reset SO2 MPX Port O data Port O functon select "0" after a reset SOEN2 MPX PO1/SO2 Port O direction Hi-Z "0" after a reset Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP Port O data Port O direction "0" after a reset PO2/SI2 Hi-Z Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD IP SI2 Port O data Port O direction "0" after a reset PO3/SCS2 Hi-Z Pull-up resistor "0" after a reset Internal data bus MPX Input data latch RD SCS2 – 18 – IP CMOS Schmitt input CXR702080 Pin Circuit format After a reset CS0, CS1 CS0 CS1 High S bus pin active RD RD High S bus pin active LWR, UWR LWR/LB UWR/UB MPX LB, UB High 16-bit SRAM access method select S bus pin active MRD MRD High MWE MWE/WE MPX WE High 16-bit SRAM access method select MCS0 MCS0 (M bus unused: CS6) High DACK0 DACK1 DACK0, DACK1 High DREQ0 DREQ1 IP DREQ0, DREQ1 – 19 – Hi-Z CXR702080 Pin Circuit format MSDIR MSBS MSSCLK After a reset MSDIR, MSBS, MSSCLK Low MSDIO (output data) MSDIO output enable MSDIO Hi-Z IP MSDIO (input data) IP MSINS MSINS CMOS Schmitt input Hi-Z System clock MPX XTAL XOUT/CKO Oscillation output Clock output enable Output clock select EXTAL • Diagram shows circuit configuration during oscillation. IP EXTAL XTAL • Feedback resistor is removed during stop mode, and XTAL is driven at “H” level. Oscillation XTAL TEX • Diagram shows circuit configuration during oscillation. IP TEX TX • Feedback resistor is removed during stop mode, and TEX is driven at “L” level; TX at “H” level. TX – 20 – Oscillation CXR702080 Pin Circuit format After a reset CMOS Schmitt input RST IP Internal reset signal Pull-up RSTWD (from watchdog timer) TDI TMS TCK Pull-up IP TDI, TMS, TCK (to CPU core) IP TRST (to CPU core) Pull-down TRST RTCK RTCK High TDO Low TDO TDO output enable TEST0 TEST1 IP TEST0, TEST1 (to test circuit) IP TEST2 (to test circuit) Hi-Z Pull-down TEST2 – 21 – CXR702080 Absolute Maximum Ratings Item (Vss = 0V reference) Rating Unit V AVDD –0.3 to +4.6 AVSS to +4.6∗1 AVSS –0.3 to +0.3 V AVREF V VIN AVSS to +4.6 –0.3 to +4.6∗2 Output voltage VOUT –0.3 to +4.6∗2 V High level output current IOH –5 mA Output (value per pin) High level total output current ΣIOH –40 mA Total for all output pins Low level output current IOL 10 mA Output (value per pin) Low level total output current ΣIOL 80 mA Total for all output pins Operating temperature Topr –40 to +85 °C Storage temperature Tstg –55 to +150 °C Allowable power dissipation PD 380 mW Symbol VDD Supply voltage Input voltage Remarks V V ∗1 AVDD and VDD must be the same voltage. ∗2 VIN and VOUT must not exceed VDD + 0.3V. Note) Usage exceeding absolute maximum ratings may permanently impair the LSI. Normal operation should be conducted under the recommended operating conditions. Exceeding these conditions may adversely affect the reliability of the LSI. Recommended Operating Conditions Item Symbol (Vss = 0V reference) Min. Typ. Max. Unit Remarks Supply voltage VDD 2.7 3.6 V Analog voltage AVDD 2.7 3.6 V ∗1 VIH 0.7VDD VDD V CMOS input∗2 VIHS 0.7VDD VDD V VIHEX 0.9VDD VDD + 0.3 V CMOS Schmitt trigger input∗3 EXTAL∗4, TEX∗4 VIL 0 0.2VDD V CMOS input∗2 VILS 0 0.2VDD V VILEX –0.3 0.4 V CMOS Schmitt trigger input∗3 EXTAL∗4, TEX∗4 V CMOS Schmitt trigger input∗3 High level input voltage Low level input voltage Hysteresis width VIHS – VILS Operating temperature Topr 0.5 –40 +85 °C ∗1 AVDD and VDD must be the same voltage. ∗2 Normal input port (PA to PC, PD2, PD3, PE, PF1, PF3 to PF5, PH0, PH2, PI to PM, PN1, PN2, PN5, PN6, PO1, PO2, DREQ0, DREQ1, MSDIO, TDI, TMS, TRST, TCK and TEST0 to TEST2). ∗3 Each pin of EC0, EC2, CT0ED0, CT0ED1, CT1ED0, CT1ED1, CT2ED0, CT2ED1, RxD0, RxD1, SCK0 to SCK2, SCS0 to SCS2, INT8, INT9, MSINS and RST. ∗4 Specified only during external clock input. – 22 – CXR702080 Electrical Characteristics DC Characteristics (VDD = 2.7 to 3.6V) Item High level output voltage Low level output voltage Symbol VOH VOL IIHE IILE IIHT IILT IIH Input current IIL (Topr = –40 to +85°C, Vss = 0V reference) Pins Conditions Min. Typ. Max. Unit PA to PC, PE to PL, PN, PO, T1, T3, TxD0, TxD1, MCS0, MCS1, MA0 to MA18, MD0 to MD7, MRD, MWE, CS0 to CS5, A0 to A23, D0 to D15, RD, LWR, LB, UWR, UB, WE, RST IOH = –0.5mA VDD – 0.4 V BEEP, TXOUT, SCK0 to SCK2, SO0 to SO2, DACK0, DACK1, MSDIR, MSBS, MSSCLK, MSDIO, RTCK, TDO, XOUT, CKO IOH = –4mA VDD – 0.4 V PA to PC, PE to PL, PN, PO, T1, T3, TxD0, TxD1, MCS0, MCS1, MA0 to MA18, MD0 to MD7, MRD, MWE, CS0 to CS5, A0 to A23, D0 to D15, RD, LWR, LB, UWR, UB, WE, RST IOL = 1mA 0.4 V PD, BEEP, TXOUT, SCK0 to SCK2, SO0 to SO2, DACK0, DACK1, MSDIR, MSBS, MSSCLK, MSDIO, RTCK, TDO, XOUT, CKO IOL = 4mA 0.4 V VIH = 3.6V 0.1 10 µA VIL = 0.4V –0.1 –10 µA VIH = 3.6V 0.1 10 µA VIL = 0.4V –0.1 –10 µA TRST VIH = 3.6V 20 100 240 µA PA to PC, PE to PL, PN, PO, WAIT, INT0 to INT9, EC0, EC2, CT0ED0, CT0ED1, CT1ED0, CT1ED1, CT2ED0, CT2ED1, RxD0, RxD1, MD0 to MD7, D0 to D15, SCK0 to SCK2, SI0 to SI2, SCS0 to SCS2∗1 VIL = Vss –20 –50 –120 µA TDI, TMS, TCK VIL = Vss –20 –100 –240 µA EXTAL TEX ∗1 PA to PC, PE to PL, PN, PO, WAIT, INT0 to INT9, EC0, EC2, CT0ED0, CT0ED1, CT1ED0, CT1ED1, CT2ED0, CT2ED1, RxD0, RxD1, MD0 to MD7, D0 to D15, SCK0 to SCK2, SI0 to SI2 and SCS0 to SCS2 pins specify the input current when the pull-up resistor is selected, and specify leakage current when non-resistor is selected. – 23 – CXR702080 Item Symbol Pins Conditions Typ. Max. Unit IZH PD2, PD3, PM, AN0 to AN3, DREQ0, DREQ1, MSDIO, MSINS, PA to PC, PE to PL, PN, PO, WAIT, INT0 to INT9, EC0, EC2, CT0ED0, CT0ED1, CT1ED0, CT1ED1, CT2ED0, CT2ED1, RxD0, RxD1, MD0 to MD7, D0 to D15, SCK0 to SCK2, SI0 to SI2, SCS0 to SCS2 VI = 3.6V 10 µA IZL PD2, PD3, PM, AN0 to AN3, DREQ0, DREQ1, MSDIO, MSINS, PA to PC, PE to PL, PN, PO, WAIT, INT0 to INT9, EC0, EC2, CT0ED0, CT0ED1, CT1ED0, CT1ED1, CT2ED0, CT2ED1, RxD0, RxD1, MD0 to MD7, D0 to D15, SCK0 to SCK2, SI0 to SI2, SCS0 to SCS2∗1 VI = 0V –10 µA IDD1 Main execution mode 18.432MHz crystal oscillation (C1 = C2 = 10pF) 43 mA IDDI1 Main idle mode 18.432MHz crystal oscillation (C1 = C2 = 10pF) 16 mA Sub sleep mode 32.768kHz crystal oscillation (C1 = C2 = 10pF) 120 µA 10 µA 100 µA 10 µA 11 pF 9 pF I/O leakage current Supply current∗2 VDD IDDS1 Ta = –20 to +25°C Stop mode 32.768kHz oscillation stop IDDS2 Ta = –20 to +25°C Input capacity Min. CIN PA to PC, PD2, PD3, PE to PO, WAIT, INT0 to INT9, EC0, EC2, CT0ED0, CT0ED1, CT1ED0, CT1ED1, CT2ED0, CT2ED1, RxD0, RxD1, MD0 to MD7, D0 to D15, AN0 to AN3, SCK0 to SCK2, SI0 to SI2, SCS0 to SCS2, MSDIO, EXTAL, TEX, RST, TEST0 DREQ0, DREQ1, MSINS, TDI, TMS, TRST, TCK, TEST1, TEST2 Clock 1MHz 0V other than the measured pins ∗1 PA to PC, PE to PL, PN, PO, WAIT, INT0 to INT9, EC0, EC2, CT0ED0, CT0ED1, CT1ED0, CT1ED1, CT2ED0, CT2ED1, RxD0, RxD1, MD0 to MD7, D0 to D15, SCK0 to SCK2, SI0 to SI2 and SCS0 to SCS2 pins specify the input current when the pull-up resistor is selected, and specify leakage current when non-resistor is selected. ∗2 When all output pins are left open and XOUT/CKO = “L” (POSL register SLCKO bit = “00” or “01”). – 24 – CXR702080 AC Characteristics (Topr = –40 to +85°C, VDD = 2.7 to 3.6V, Vss = 0V reference) (1) Clock timing Item Symbol Pins Conditions Min. Main oscillation input clock frequency fEX XTAL EXTAL Fig. 1, Fig. 2 Main oscillation input clock pulse width tXL, tXH tCR, tCF XTAL EXTAL Fig. 1, Fig. 2 External clock drive XTAL EXTAL Fig. 1, Fig. 2 External clock drive Sub oscillation input clock frequency fTEX TEX TX Fig. 2 32kHz clock applied condition Event count input clock pulse width tEH, tEL tER, tEF EC0 EC2 Fig. 3 EC0 EC2 Fig. 3 Main oscillation input clock rise time, fall time Event count input clock rise time, fall time Typ. 1 32.768 µs 1 0.4V tXH tCF tXL tCR Fig. 1. Clock timing External clock 32kHz clock applied condition Crystal oscillation XTAL TEX TX 74HC04 C1 C2 C1 C2 Fig. 2. System clock applied condition 0.7VDD EC0 EC2 0.2VDD tEH tEF Fig. 3. Event count input timing – 25 – tEL tER ns kHz 2/fPS4 0.9VDD EXTAL MHz 100/fEX EXTAL XTAL XTAL 20 ns 1/fEX EXTAL Unit 22.5 Note) fPS4 is fSRC/16 (MHz) for output fSRC of main oscillation circuit. Crystal oscillation Ceramic oscillation Max. ms CXR702080 (2) Serial transfer (CH0, CH1, CH2) Item SCS ↓ → SCK delay time Symbol Pins tDCSK SCK0 SCK1 SCK2 SCK0 (Topr = –40 to +85°C, VDD = 2.7 to 3.6V, Vss = 0V reference) Conditions Max. Unit Min. External start transfer mode Input mode (SCKOE = “1”) ns 100 Output mode 100 ns 100 ns External start transfer mode SCS ↑ → SCK float delay time tDCSKF SCK1 (SCK = output mode, SCS ↓ → SO delay time tDCSO SCS ↑ → SO float delay time tDCSOF SO1 SCS high level width tWHCS SCK2 SCKOE = “1”) SO0 SO1 SO2 External start transfer mode (SOEN = “1”) 100 ns External start transfer mode (SOEN = “1”) 100 ns SO0 SO2 SCS0 SCS1 SCS2 External start transfer mode ns 200 SCK input mode SCK interval time tKINT SCK cycle time tKCY SCK high, low pulse width tKH tKL Input setup time (for SCK ↑) tSIK SI input hold time (for SCK ↑) tKSI SCK ↓ → SO delay time tKSO SCK0 SCK0 SCK1 SCK2 SCK0 SCK1 SCK2 SI0 SI1 SI2 SI0 SI1 SI2 SO0 SO1 SO2 Internal start high6000 2000 + + speed transfer mode fSYS fSIO tKCY 6000 3000 External start high+ + fSIO speed transfer mode fSYS tKCY ns 2 ns 2 400 ns 1000/fSCK ns 200 ns 500/fSCK – 50 ns SCK input mode 50 ns SCK output mode 75 ns SCK input mode 100 ns SCK output mode 50 ns Input mode Output mode Input mode Output mode SCK input mode 75 ns SCK output mode 50 ns Notes) 1. The load condition for the SCK output mode and SO output delay time is 50pF. 2. fSIO is fSRC/2 (MHz) for output fSRC of main oscillation circuit. As for fSCK and fSYS, see the following. Serial clock selection PS3∗1 fSCK (MHz) Serial clock frequency division ratio fSCK (MHz) fSRC/8 No frequency division No PS4∗1 fSRC/16 2 frequency division fSRC/2 PS5 fSRC/32 4 frequency division fSRC/4 PS6 fSRC/64 16 frequency division fSRC/16 PS7∗2 fSRC/128 PS8∗2 fSRC/256 ∗1 CH1, CH2 only – 26 – ∗2 CH0 only CXR702080 tWHCS SCS0 SCS1 SCS2 0.7VDD 0.2VDD tKCY tDCSK tKL tDCSKF tKH 0.7VDD SCK0 SCK1 SCK2 0.2VDD tSIK tKSI 0.7VDD SI0 SI1 SI2 Input data 0.2VDD tDCSO tKSO tDCSOF 0.7VDD SO0 SO1 SO2 0.7VDD Output data 0.2VDD 0.2VDD tKINT SCK0 SCK1 SCK2 n byte n + 1 byte Fig. 4. Serial transfer CH0, CH1, CH2 timing – 27 – CXR702080 (3) Serial transfer (memory stick) Item Symbol (Topr = –40 to +85°C, VDD = 2.7 to 3.6V, Vss = 0V reference) Pins Conditions Min. Max. Unit MSSCLK cycle time tKCY MSSCLK 1000/fMSCK ns MSSCLK high, low pulse width tKH tKL MSSCLK 500/fMSCK – 5 ns MSBS output delay time tBSD MSBS For MSSCLK ↓ 10 ns MSDIO output delay time tDIOD MSDIO For MSSCLK ↓ 10 ns MSDIO input setup time tDIOS MSDIO For MSSCLK ↑ 18 ns MSDIO input hold time tDIOH MSDIO For MSSCLK ↑ 5 ns MSDIR output delay time tDIRD MSDIR For MSSCLK ↓ Notes) 1. The load condition is 26pF. 2. fMSCK is as follows for output fSRC of main oscillation circuit. Shift clock frequency division ratio fMSCK (MHz) No frequency division fSRC 2 frequency division fSRC/2 4 frequency division fSRC/4 8 frequency division fSRC/8 – 28 – 10 ns CXR702080 tKCY 0.7VDD MSSCLK 0.2VDD tKL MSBS tKH Bus state output tBSD MSDIO (output) Output data tDIOD MSDIO (input) Input data tDIOS MSDIR tDIOH Serial data I/O direction output tDIRD Fig. 5. Memory stick transfer timing – 29 – CXR702080 (4) A/D converter characteristics (Topr = –40 to +85°C, VDD = 2.7 to 3.6V, VDD = AVDD, Vss = AVss = 0V reference) Item Symbol Pins Conditions Max. Unit Resolution 8 Bits Absolute error ±3 LSB 20/fPS4 µs Sampling time tCONV tSAMP Reference input voltage VREF AVREF Analog input voltage VIAN AN0 to AN3 Conversion time Min. Typ. 19/fPS4 µs 5/fPS4 VDD = AVDD = 2.7V AVDD – 0.3 0 AVDD V AVREF V Note) fPS4 is fSRC/16 (MHz) for output fSRC of main oscillation circuit. Conversion time indicates the time required from conversion start to ADC interruption request occurrence when 1 channel is selected. This includes sampling time. FFh Digital conversion value FEh Absolute error 01h 00h AVREF Analog input Fig. 6. Definition of A/D converter terms (5) Interruption and reset input Item External interruption high, low level width Reset input high, low level width (Topr = –40 to +85°C, VDD = 2.7 to 3.6V, Vss = 0V reference) Symbol tIH tIL tIH tIL Pins Conditions INT0 to INT9 Min. Typ. 100 200 ns 32/fSRC µs RST Note) fSRC is output of main oscillation circuit. tIH INT0, INT1, INT2, INT3, INT4, INT5, INT6, INT7, INT8, INT9, tIL 0.7VDD 0.2VDD RST Fig. 7. Interruption input, RST input timing – 30 – Max. Unit CXR702080 Appendix (ii)∗1 (i) EXTAL XTAL TEX TX Rd1 C11 C21 Rd2 C12 C22 Fig. 8. Recommended oscillation circuit Manufacturer Model RIVER EIETEC CO., LTD. FCK-03 fc (MHz) C11 (pF) C21 (pF) Rd1 (Ω) Circuit example 18.432 12 12 0 (i) ∗1 As for (ii) sub oscillation circuit C12, C22 and Rd2, decide them by seeing matching with oscillator. – 31 – CXR702080 Package Outline Unit: mm 176PIN LFLGA (PLASTIC) 0.2 S A X 1.4MAX PIN 1 INDEX 0.10 S 13.0 S B 0.2 S 13.0 0.1MAX x4 S 0.2 0.15 0.8 3 – φ0.50 DETAIL X A 176 – φ0.40 ± 0.05 φ0.08 M S A B R P N M L K J H G F E D C B A 0.8 B 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 0.5 0.55 0.90 0.90 0.55 0.5 0.55 0.55 PACKAGE STRUCTURE PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE LFLGA-176P-01 P-LFLGA176-13X13-0.8 TERMINAL TREATMENT TERMINAL MATERIAL PACKAGE MASS – 32 – ORGANIC SUBSTRATE NICKEL & GOLD PLATING COPPER 0.5g Sony Corporation