Micro Controller User's Manual
Table Of Contents
- TMP92CZ26AXBG
- 1. Outline and Features
- 2. Pin Assignment and Pin Functions
- 3. Operation
- 3.1 CPU
- 3.2 Memory Map
- 3.3 Clock Function and Standby Function
- 3.4 Boot ROM
- 3.5 Interrupts
- 3.6 DMAC (DMA Controller)
- 3.7 Function of ports
- 3.7.1 Port 1 (P10 to P17)
- 3.7.2 Port 4 (P40 to P47)
- 3.7.3 Port 5 (P50 to P57)
- 3.7.4 Port 6 (P60 to P67)
- 3.7.5 Port 7 (P70 to P76)
- 3.7.6 Port 8 (P80 to P87)
- 3.7.7 Port 9 (P90 to P92, P96, P97)
- 3.7.8 Port A (PA0 to PA7)
- 3.7.9 Port C (PC0 to PC7)
- 3.7.10 Port F (PF0 to PF5, PF7)
- 3.7.11 Port G (PG0 to PG5)
- 3.7.12 Port J (PJ0 to PJ7)
- 3.7.13 Port K (PK0 to PK7)
- 3.7.14 Port L (PL0 to PL7)
- 3.7.15 Port M (PM1, PM2, PM7)
- 3.7.16 Port N (PN0 to PN7)
- 3.7.17 Port P (PP1 to PP7)
- 3.7.18 Port R (R0 to R3)
- 3.7.19 Port T (PT0 to PT7)
- 3.7.20 Port U (PU0 to PU7)
- 3.7.21 Port V (PV0 to PV4, PV6, PV7)
- 3.7.22 Port W (PW0 to PW7)
- 3.7.23 Port X (PX4, PX5 and PX7)
- 3.7.24 Port Z (PZ0 to PZ7)
- 3.8 Memory Controller (MEMC)
- 3.9 External Memory Extension Function (MMU)
- 3.10 SDRAM Controller (SDRAMC)
- 3.11 NAND Flash Controller (NDFC)
- 3.11.1 Features
- 3.11.1 Block Diagram
- 3.11.2 Operation Description
- 3.11.3 ECC Control
- 3.11.4 Description of Registers
- 3.11.5 An Example of Accessing NAND Flash of SLC Type
- 3.11.6 An Example of Accessing NAND Flash of MLC Type (When the valid data is processed as 518byte)
- 3.11.7 An Example of Connections with NAND Flash
- 3.12 8 Bit Timer (TMRA)
- 3.13 16 bit timer / Event counter (TMRB)
- 3.14 Serial Channels (SIO)
- 3.15 Serial Bus Interface (SBI)
- 3.16 USB Controller
- 3.16.1 Outline
- 3.16.2 900/H1 CPU I/F
- 3.16.3 UDC CORE
- 3.16.3.1 SFRs
- 3.16.3.2 EPx_FIFO Register (x: 0 to 3)
- 3.16.3.3 bmRequestType Register
- 3.16.3.4 bRequest Register
- 3.16.3.5 wValue Register
- 3.16.3.6 wIndex Register
- 3.16.3.7 wLength Register
- 3.16.3.8 Setup Received Register
- 3.16.3.9 Current_Config Register
- 3.16.3.10 Standard Request Register
- 3.16.3.11 Request Register
- 3.16.3.12 DATASET Register
- 3.16.3.13 EPx_STATUS Register (x: 0 to 7)
- 3.16.3.14 EPx_SIZE Register (x: 0 to 7)
- 3.16.3.15 FRAME Register
- 3.16.3.16 ADDRESS Register
- 3.16.3.17 EOP Register
- 3.16.3.18 Port Status Register
- 3.16.3.19 Standard Request Mode Register
- 3.16.3.20 Request Mode Register
- 3.16.3.21 COMMAND Register
- 3.16.3.22 INT_Control Register
- 3.16.3.23 USB STATE Register
- 3.16.3.24 EPx_MODE Register (x: 1 to 3)
- 3.16.3.25 EPx_SINGLE Register
- 3.16.3.26 EPx_BCS Register
- 3.16.3.27 USBREADY Register
- 3.16.3.28 Set Descriptor STALL Register
- 3.16.3.29 Descriptor RAM Register
- 3.16.4 Descriptor RAM
- 3.16.5 Device Request
- 3.16.6 Transfer mode and Protocol Transaction
- 3.16.7 Bus Interface and Access to FIFO
- 3.16.8 USB Device answer
- 3.16.9 Power Management
- 3.16.10 Supplement
- 3.16.11 Points to Note and Restrictions
- 3.17 SPIC (SPI Controller)
- 3.18 I2S (Inter-IC Sound)
- 3.19 LCD Controller (LCDC)
- 3.20 Touch Screen Interface (TSI)
- 3.21 Real time clock (RTC)
- 3.22 Melody / Alarm generator (MLD)
- 3.23 Analog-Digital Converter (ADC)
- 3.23.1 Control register
- 3.23.2 Operation
- 3.23.2.1 Analog Reference Voltages
- 3.23.2.2 Analog Input Channel(s) selection
- 3.23.2.3 Starting an AD Conversion
- 3.23.2.4 AD Conversion Modes and AD Conversion-End Interrupts
- 3.23.2.5 High-Priority Conversion Mode
- 3.23.2.6 AD Monitor Function
- 3.23.2.7 AD Conversion Time
- 3.23.2.8 Storing and Reading the AD Conversion Result
- 3.23.2.9 Data Polling
- 3.24 Watchdog Timer (Runaway detection timer)
- 3.25 Power Management Circuit (PMC)
- 3.26 Multiply and Accumulate Calculation Unit (MAC)
- 3.27 Debug Mode
- 4. Electrical Characteristics
- 4.1 Maximum Ratings
- 4.2 DC Electrical Characteristics
- 4.3 AC Characteristics
- 4.3.1 Basic Bus Cycle
- 4.3.2 Page ROM Read Cycle
- 4.3.3 SDRAM controller AC Characteristics
- 4.3.4 NAND Flash Controller AC Characteristics
- 4.3.5 Serial channel timing
- 4.3.6 Timer input pulse (TA0IN, TA2IN, TB0IN0, TB1IN0)
- 4.3.7 Interrupt Operation
- 4.3.8 USB Timing (Full-speed)
- 4.3.9 LCD Controller
- 4.3.10 I2S Timing
- 4.3.11 SPI Controller
- 4.4 AD Conversion Characteristics
- 5. Table of Special function registers (SFRs)
- 6. Package
TMP92CZ26A
92CZ26A-487
Difference points between UNIT receive and Sequential receive
UNIT receive is the mode that receiving only 1 UNIT data. UNIT receive mode can be
selected by writing SPICT<RXMOD>= “0”.
The receive FIFO is invalid in the UNIT receive mode. By writing SPICT<RXE>= “1”,
receives 1UNIT data, loads received data in receive data register (SPIRD) and then stop
receiving. Reading (SPIRD) register should be executed after writing SPICT<RXE>= “0”. If
reading (SPIRD) register with the condition SPICT<RXE>= “1” 1 UNIT data is received again.
During receiving, it is prohibited to change;
Sequential receive
→UNIT receive
UNIT receive
→ Sequential receive
RFUL and REND interrupts generate when UNIT receiving is finished.
Sequential receive is the mode that receiving the data sequentially and automatically when
receive FIFO has space. Sequential receive is selected by writing SPICT<RXMOD>= “1”.
The 32 bytes size of receive FIFO becomes valid in sequential receive mode. Reading the data
in receive FIFO every 16 bytes is always needed. If reading other than 16 bytes, RFUL
interrupt does not generate normally.
Received data is loaded to receive FIFO by writing SPICT<RXE>= “1”.
Receiving next data is kept automatically unless data receive FIFO becomes full (32bytes).
Therefore receiving is not stopped every UNIT but kept sequentially. During receiving, it is
prohibited to change receiving mode;
If writing SPICT<RXE>= “0” during receiving, receiving is stopped after finishing to receive
the UNIT data in receiving.
RFUL interrupt generates when 16 and 32 bytes of the data is loaded to the FIFO. REND
interrupt generates when receiving 32 bytes size of the data is finished.