Abstract: The DS80C320/323 microcontroller is a higher performance alternative to the Atmel 80C51 (TS80C51U2). Details of converting application code from an Atmel microcontroller to the DS80C320/DS80C323 are shown including timing changes, SFR differences and new features.
The purpose of this application note is to provide information on converting application code from the Atmel TS80C51U2 to the faster DS80C320.
The WD1 and WD0 bits in the CKCON register control the watchdog timeout values. Table 4 shows the possible settings. Prior to changing the values of the WD1 and WD0 bits, the reset watchdog timer bit (WDCON.0) should be set to avoid corruption of the watchdog count. Setting the EWDI (EIE.4) bit enables the watchdog timer interrupt and the EWT (WDCON.1) enables the watchdog timer. To reset the watchdog timer, application code sets the RWT (WDCON.0) bit. To avoid a watchdog timeout, this bit must be set by application code prior to the timeout. Timed access, DS80C320/323 data sheet page 18, protects both the watchdog enable and the watchdog reset bits, preventing runaway code from accidentally resetting or disabling the watchdog timer.
Table 4. Watchdog settings
The SFR register WDTRG bits S0, S1, and S2 program the TS80C51U2 watchdog timeout period. The timeout is programmable from 3.26ms to 418ms at 30MHz. The Atmel microcontrollers require that a 1Eh and then an E1h be written to the WDTRST SFR to enable or reset the timer.
The reload values for each timer must be recalculated to account for the difference in Xtal/6 or Xtal/4 modes. Refer to the DS80C320/323 data sheet for detailed functions for calculating the reload values.
Note: The TS80C51 serial port 1 interrupt vector is located at address 33h. On the DS80C320/323 the serial port 1 interrupt vector is located at 3Bh and the power-fail interrupt is at 33h.
Table 5. Interrupt priorities
Introduction
Dallas Semiconductor developed an innovative family of 8051 microcontrollers running at 4 clocks-per-machine cycle instead of the original 12 clocks. While some of the instructions increased in machine cycles, the overall improvement in performance achieved by most applications will be 2.5X. The Atmel 8051 family runs at 6 clocks-per-machine cycle, compared to the original 12, without increasing the number of machine cycles per instruction. This results in an improvement of 2X over the original 8051 architecture. The DS80C320 also contains several feature enhancements over the original 8051 including dual data pointers, power-management mode, enhanced watchdog timer, a ring oscillator, and stretch cycles for external memory (MOVX) access.The purpose of this application note is to provide information on converting application code from the Atmel TS80C51U2 to the faster DS80C320.
Features
Table 1. DS80C320/323 vs. TS80C51U2FEATURE | DESCRIPTION | DALLAS | ATMEL |
Maximum Operating Frequency 4.5V to 5.5V | 33MHz (82.5MHz equivalent) | 30MHz (60MHz equivalent) | |
Maximum Operating Frequency 2.7V to 5.5V | 18MHz (45MHz equivalent) | 20MHz (40MHz equivalent) | |
MOVX Stretch | Stretch external data read/write to allow access to slower peripherals | Y | N |
External Interrupt Sources | 6 | 2 | |
Four I/O Ports | Ports 0, 1, 2, 3 | Y | Y |
Three 16-Bit Timer/Counters | Timer 0, 1, 2 | Y | Y |
256 Bytes Internal RAM | Y | Y | |
Dual Data Pointer | DPTR0, DPTR1 | Y | Y |
Power Saving Modes | Idle mode, sleep | Y | Y |
Power-Fail Reset | Brownout detector | Y | N |
Power-Fail Warning | Early power-fail warning interrupt | Y | N |
Programmable Watchdog Timer | Y | Y | |
Watchdog Interrupt | Y | N | |
Interrupt Priority Levels | Programmable interrupt levels | 2 | 4 |
Two Full-Duplex Serial UARTs | 7 or 8 data bits, 1 or 2 stop bits, parity, framing error recognition, address recognition | Y | Y |
Pinout
Table 2. DS80C320/323 and TS80C51U2 pinout differencesPIN | NAME | DIFFERENCE IN DS80C320 | DESCRIPTION/COMMENT | ||||
DIP | PLCC | TQFP, VQFP | |||||
20 | 22, 23 | 16, 17 | VSS | Two ground connections provided | On TS80C51U2, PLCC pin 23 and VQFP44 pin 17 are N.C. These pins can be left floating on the DS80C320/323 without problems. | ||
9 | 10 | 4 | RST | Reset. DS80C320/323 does not require an external capacitor, however, if one is placed it does not affect behavior. | |||
Alternate | Function | Comment | |||||
3 | 4 | 42 | P1.2 | No difference (Note 1) | RXD1 | Serial port 1 Input | |
4 | 5 | 43 | P1.3 | No difference (Note 1) | TXD1 | Serial port 1 Output | |
5 | 6 | 44 | P1.4 | Can be used as external interrupt | INT2 | External Interrupt | TS80C51U2 only has two external interrupts. |
6 | 7 | 1 | P1.5 | Can be used as external interrupt (Note 1) | Active-Low INT3 | External Interrupt | TS80C51U2 only has two external interrupts. |
7 | 8 | 2 | P1.6 | Can be used as external interrupt (Note 1) | INT4 | External Interrupt | TS80C51U2 only has two external interrupts. Can be serial 1 output on TS80C51U2. |
8 | 9 | 3 | P1.7 | Can be used as external interrupt (Note 1) | Active-Low INT5 | External Interrupt | TS80C51U2 only has two external interrupts. Can be serial 1 output on TS80C51U2. |
-- | 12 | 6 | N.C. | No Connect | Optional serial port1 input on TS80C51U2 (Note 1) | ||
-- | 34 | 28 | N.C. | No Connect | Optional serial port1 output on TS80C51U2 (Note 1) | ||
-- | 1 | 39 | N.C. | No Connect | VSS on TS80C51U2, grounding pin on DS80C320/323 causes no problems | ||
Note 1: TS80C51U2 serial port 1 input/output can be located on different positions, depending on AUXR bit M1UA1 and M0UA_1 bit. |
SFR Memory Map
Table 3. SFR differencesREGISTER | BIT 7 | BIT 6 | BIT 5 | BIT 4 | BIT 3 | BIT 2 | BIT 1 | BIT 0 | ADDR | COMMENT |
DPL1 | 84H | TS80C51U2 DPL1/DPL use SFR address 82h (DPL on DS80C320/323). | ||||||||
DPH1 | 85H | TS80C51U2 DPH1/DPH use SFR address 83h (DPH on DS80C320/323). | ||||||||
DPS | 0 | 0 | 0 | 0 | 0 | 0 | 0 | SEL | 86H | TS80C51U2 uses DPS bit in AUXR1 SFR. |
CKCON DS80C320/323 |
WD1 | WD0 | T2M | T1M | T0M | MD2 | MD1 | MD0 | 8Eh | WD1,0 watchdog timeout. See Watchdog Section T2M, T1M, T0M (timer speed); See Timer Section MD2, MD1, MD0 (Stretch MOVX) TS80C51U2 does not support stretch. M1UA_1/M0UA_1 on TS80C51U2 selects UART1 pin out. |
AUXR TS80C51U2 |
M1UA_1 | M0UA_1 | -- | -- | -- | -- | -- | A0 | ||
CKCON TS80C51U2 only |
X2 | 8Fh | 12/6 clock select on TS80C51U2, register not used on DS80C320/323. | |||||||
EXIF | IE5 | IE4 | IE3 | IE2 | -- | RGMD | RGSL | BGS | 91h | IE5, 4, 3, 2 Additional external interrupts supported by DS80C320/323. |
BRL TS80C51U2 only |
BRL7 | BRL6 | BRL5 | BRL4 | BRL3 | BRL2 | BRL1 | BRL0 | 9Ah | Baud rate generator on TS80C51U2. Register not used on DS80C320/323. |
BDRCON TS80C51U2 |
-- | -- | -- | BRR | TBCK_0 | RBCK_0 | SPD | SRC | 9Bh | See serial port baud section below. |
BDRCON_1 TS80C51U2 |
SMOD1_1 | SMOD0_1 | RCLK_1 | TCLK_1 | TBCK_1 | RBCK_1 | -- | -- | 9Ch | See serial port baud section below. |
AUXR1 TS80C51U2 |
-- | -- | -- | -- | -- | -- | -- | DPS | A2h | DPS select is handled in register DPS.0 on DS80C320/323. |
WDTRST TS80C51U2 |
A6h | Watchdog reset handled in WDCON register on DS80C320/323. | ||||||||
WDTPRG TS80C51U2 |
T4 | T3 | T2 | T1 | T0 | S2 | S1 | S0 | A7h | Watchdog timeout handled in CKCON register on DS80C320/323. |
IPH TS80C51U2 |
-- | PSH_1 | PT2H | PSH_0 | PT1H | PX1H | PT0H | PX0H | B7h | Interrupt priorities handled in IP and EIP registers on DS80C320/323. |
STATUS | PIP | HIP | LIP | 1 | 1 | 1 | 1 | 1 | C5h | Interrupt status for clock control. Not present in Atmel TS80C51U2. |
TA | C7h | Timed Access Control | ||||||||
EIE | -- | -- | -- | EWD1 | EX5 | EX4 | EX3 | EX2 | E8h | Enable watchdog interrupt and enable extended interrupts. Additional features not supported on TS80C51U2. |
EIP | -- | -- | -- | PWDI | PX5 | PX4 | PX3 | PX2 | F8h | Watchdog interrupt and extended interrupts. Additional features not supported on TS80C51U2. |
Dual Data Pointers
Unlike the Atmel TS80C51U2 that uses shadow registers, the DS80C320/323 maps the two data pointers to different registers. DPL0 is at SFR address 82h, DPH0 is at 83h, DPL1 is at 84h, and DPH1 is at 85h. DPL is mapped at SFR 82h and DPH is at SFR 83h on the Atmel TS80C51U2. To toggle between the active DPTR on the DS80C320/323, use DPS.0 instead of AUXR1 on the TS80C51U2. Having separate registers for the dual data pointers allows access to either set of registers without having to change the active DPTR.Watchdog Timer
The Dallas DS80C320/323 implements an advanced watchdog reset with support for a watchdog interrupt prior to reset of the device on expiration of the timer. The watchdog interrupt vector is located at 63h and is vectored to 512 cycles prior to the watchdog timeout. An application can either reset the watchdog and hold off the reset or it can perform clean-up functions and let the reset happen at the end of the 512 cycles.The WD1 and WD0 bits in the CKCON register control the watchdog timeout values. Table 4 shows the possible settings. Prior to changing the values of the WD1 and WD0 bits, the reset watchdog timer bit (WDCON.0) should be set to avoid corruption of the watchdog count. Setting the EWDI (EIE.4) bit enables the watchdog timer interrupt and the EWT (WDCON.1) enables the watchdog timer. To reset the watchdog timer, application code sets the RWT (WDCON.0) bit. To avoid a watchdog timeout, this bit must be set by application code prior to the timeout. Timed access, DS80C320/323 data sheet page 18, protects both the watchdog enable and the watchdog reset bits, preventing runaway code from accidentally resetting or disabling the watchdog timer.
Table 4. Watchdog settings
WD1 | WD0 | INTERRUPT TIMEOUT | TIME (ms) (AT 33MHz) | RESET TIMEOUT | TIME (ms) (AT 33MHz) |
0 | 0 | 217 clocks | 3.97 | 217 + 512 clocks | 4 |
0 | 1 | 220 clocks | 31.76 | 220 + 512 clocks | 31.79 |
1 | 0 | 223 clocks | 254.2 | 223 + 512 clocks | 254.22 |
1 | 1 | 226 clocks | 2034 | 226 + 512 clocks | 2037 |
The SFR register WDTRG bits S0, S1, and S2 program the TS80C51U2 watchdog timeout period. The timeout is programmable from 3.26ms to 418ms at 30MHz. The Atmel microcontrollers require that a 1Eh and then an E1h be written to the WDTRST SFR to enable or reset the timer.
Timers
The DS80C320/323 allows timers 0, 1, and 2 to be run in original 8051 Xtal/12 or from Xtal/4 mode. To run in the 4-clock timer mode, T2M, T1M, or T0M bits must be set for each timer. Unlike the TS80C51U2, the timers can be set independently to run in either 12- or 4-clock mode. This allows the DS80C320/323 more flexibility in timer rates. On the TS80C51U2, all timers either run in 6-clock or 12-clock mode depending on the X2 bit in CKCON.The reload values for each timer must be recalculated to account for the difference in Xtal/6 or Xtal/4 modes. Refer to the DS80C320/323 data sheet for detailed functions for calculating the reload values.
PCON UART Control
Both the DS80C320/323 and the TS80C51 allow baud-rate doubling and framing-error detection. The baud-rate doubling flags for the DS80C320/323 are SMOD_0 in PCON and SMOD_1 in WDCON. Setting these bits enables baud-rate doubling. To enable framing-error detection set SMOD0 (PCON.6).UART
The TS80C51U2 includes a dedicated baud-rate generator that is not available in the DS80C320/323. It is necessary to convert serial code that uses the baud-rate generator to use an available timer. Refer to the High-Speed Microcontroller User's Guide for specifics on baud-rate generation with the timers (Section 12.3).Interrupts
The DS80C320/323 provide 2 levels of interrupt priority with natural priority selection. Table 5 shows the priority levels of the DS80C320/323 compared to the TS80C51U2.Note: The TS80C51 serial port 1 interrupt vector is located at address 33h. On the DS80C320/323 the serial port 1 interrupt vector is located at 3Bh and the power-fail interrupt is at 33h.
Table 5. Interrupt priorities
NAME | DALLAS LEVEL |
ATMEL LEVEL |
VECTOR | COMMENT |
Power-Fail Indicator | 1 | Not Available | 33h | Warning ATMEL serial port 1 interrupt vector |
External Interrupt 0 | 2 | 1 | 03h | |
Timer 0 Overflow | 3 | 2 | 0Bh | |
External Interrupt 1 | 4 | 3 | 13h | |
Timer 1 Overflow | 5 | 4 | 1Bh | |
Serial Port 0 | 6 | 5 | 23h | |
Timer 2 Overflow | 7 | 6 | 2Bh | |
Serial Port 1 | 8 | 7 | 3Bh | Warning ATMEL serial port 1 vector at 33h |
External Interrupt 2 | 9 | Not Available | 43h | |
External Interrupt 3 | 10 | Not Available | 4Bh | |
External Interrupt 4 | 11 | Not Available | 53h | |
External Interrupt 5 | 12 | Not Available | 5Bh | |
Watchdog Interrupt | 13 | Not Available | 63h |
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