How To Load Program For At89c51snd1c
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- Unified development environment with C51 compiler, macro assembler, linker/locator, flash/load utility, and debugger.
- Embedded Development Environment provides access to all tools through common window-based interface.
- Seamlessly integrates with other TASKING compiler toolsets for easy future upgrading.
- C51 compiler produces the smallest and fastest code in the industry.
- Fully supports ANSI-C standard.
- Integrated MISRA C code checker in compiler.
- Code memory banking support allows up to 256 banks of 64kb.
- Supports 4 different memory models: small, auxpage, large, and reentrant.
- In-line assembly and in-line expansion of user and predefined functions for efficiency.
- Software floating point libraries for single precision operation.
- Powerful macro assembler and linker/locator.
- Supported output formats: IEEE-695, OMF-51, Intel HEX, and S-Records.
- Complete ANSI C and runtime support libraries in source code.
- Includes high-speed simulator debugger and retargetable ROM monitor debugger.
- View source code in C, assembly or mixed-mode.
- Unlimited amount of code and data breakpoints supported.
- Royalty-free ROM monitor program with support for Intel RISM protocol.
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- Integrated code/data coverage and performance analysis in simulator.
- Includes C and assembly level trace and stack tracing.
- Advanced Bubble-Spy technology for quick and easy inspection of variable contents.
- Programmable Data Analysis enables quick detection of errors in data output.
How Do I Load Software
| ABOV Semiconductors | GMS97C1051, GMS97L1051, GMS97C2051, GMS97L2051, GMS90C320, GMS90L320, GMS9XC51, GMS9XC52, GMS9XC54, GMS9XC56, GMS9XC58, HMS9XC7132, HMS9XC7134, HMS9XC8108, HMS9XC8116, HMS9XC8132 |
| Aeroflex UTMC | UT69RH051 |
| Ali Corporation (Acer Labs) | M6032, M6759 |
| Altium | TSK51A, TSK52A |
| AMD | AMD80C521 |
| Analog Devices | ADUC812, ADUC814, ADUC816, ADUC824, ADUC831, ADUC832, ADUC834, ADUC836, ADUC841, ADUC842, ADUC843, ADUC844, ADUC845, ADUC847, ADUC848 |
| Atmel | AT89C1051, AT89C1051U, AT89C2051, AT89LP213, AT89LP214, AT89LP216, AT89C4051, AT89S4D12, AT87F51, AT89C51AC3, AT89C51CC03, AT89C51IC2, AT89C51RB2, AT89C51RC2, AT83C5111, AT87C5111, AT80C5112, AT83C5112 |
| AT87C5112, AT8XC5122, AT83C5123, AT89C5131, AT87LV51, AT89C51, AT89LS51, AT89LV51, AT89S51, AT87F51RC, AT89C51RC, AT89LV51RC, AT89C51XD2, AT83C51SND1C, AT89C51SND1C, AT87F52, AT87LV52, AT89C52 | |
| AT89LS52, AT89LV52, AT89S52, AT89LS53, AT89S53, AT8X53, AT89LV55, AT87F55WD, AT89C55WD, AT89LV55WD, AT89S8053, AT89LS8252, AT89S8252, T89C51AC2, T89C51CC01, T89C51CC02, T83C51RB2, T83C51RC2 | |
| T80C51RD2, T89C51RD2, T8XC51SND1, T83C5101, T87C5101, T83C5102, T89C5115, T83C5121, T85C5121, T89C5121, TS80C31X2, TS80C32X2, TS80C51RA2, TS83C51RB2, TS87C51RB2, TS83C51RC2, TS87C51RC2, TS80C51RD2 | |
| TS83C51RD2, TS87C51RD2, TS80C51U2, TS83C51U2, TS87C51U2, TS80C52X2, TS87C52X2, TS80C54X2, TS87C54X2, TS80C58X2, TS87C58X2, TSC80C31, TSC80CL31, TSC80C51, TSC87C51, TSC80CL51, AT89S8253 | |
| ChipCon | CC1010, CC1110FX, CC1111FX |
| CML Microcircuits | CMX850 |
| Cybernetic Micro Systems | CMSP51 |
| Cypress | 8X931AXUSB, 8X931HXUSB, EZ-USB FX, AN EZ-USB, EZ-USB FX2 |
| Domosys | CEWAY PL-ONE |
| Fraunhofer | FHG8051 |
| Honeywell | HT83C51 |
| Infineon® Technologies | C501, C504, C505, C505A, C505C, C505CA, C505L, C508, C509, C511, C513, C513A, C513AO, C515, C515A, C515C, 80C515, 80C515A, 80C517, 80C517A, C517A, 80C535, 80C537, C541U, XC856CLM, XC864, XC866, C868, XC878, XC886/888, XC886/888C, XC886/888CLM, XC886/888CM, XC886/888LM |
| Integrated Silicon Solutions Inc. | IS80C51, IS80LV51, IS80C52, IS80LV52, IS8089C52 |
| Intel | 8051, 80L51, 8052, I8XC51FX, I8XC52, I8XC54, I8XC58, I8X931AX USB, I8X931HX USB, 87C51GB, 83C152, MCS151, |
| Kawasaki | KS152JB |
| Maxim (Dallas) | DS80HC11, DS2250, DS2250T, DS2251T, DS2252T, DS5000, DS5000FP, DS5000T, DS5001FP, DS5002FP, DS5240, DS8XC310, DS8XC320, DS8XC323, DS8XC390, DS8XC400, DS8XC420, DS8XC430, DS8XC440, DS8XC450, DS8XC520, DS8XC530, DS8XC550, MAX7651, MAX7652 |
| Megawin Technology | MPC89E51A, MPC89E52A, MPC89E53A, MPC89E54A, MPC89L51A, MPC89L52A, MPC89L53A, MPC89L54A |
| Micronas | SDA55XX |
| Myson Century Products | CS6208 |
| Nordic Semiconductor | NRF24E1, NRF24E2, NRF9E5 |
| Nuvotron (Winbond Electronics Corp.) | W77C32, W77E468, W77E58, W77LE58, W78C32C, W78L32, W78C33B, W78L33, W78E365, W78C438C, W78C51D, W78E51B, W78L51, W78LE51, W78C516, W78E516B, W78C52D, W78E52B, W78L52, W78LE52, W78C54, W78E54, W78LE54, W78L54, W78LE54, W78C58, W78E58, W78C801, W78L801, W78LE812, W78E858, W925E/C240, W925E/C625 |
| NXP | P83C055, P87C055, P8XCX66, P8XCX70, P83C145, P80C31, P80CL31, P80C31X2, P80C32, P80C32X2, P87C380, P8XCL410, P83C434, P8XC451, P8XC453, P80C51, P87C51, P89C51, P80CL51, P80C51FA, P83C51FA, P87C51FA, P83C51FB, P87C51FB, P83C51FC, P87C51FC, P8XC51RA, P80C51RA+, P83C51RA+, P87C51RA+, P87C51RA2, P89C51RA2, P89C51RA2XX, P8XC51RB, P83C51RB+, P87C51RB+, P87C51RB2, P89C51RB2 |
| P89V51RB2, P89C51RB2HXX, P89C51RB2XX, P8XC51RC, P83C51RC+, P87C51RC+, P87C51RC2, P89C51RC2, P89V51RC2, P89C51RC2HXX, P89C51RC2XX, P8XC51RD, P83C51RD+, P87C51RD+, P87C51RD2, P89C51RD2, P89V51RD2, P89C51RD2HXX, P89C51RD2XX, P80C51X2, P87C51X2, P89C51X2, P8XC52, P8XC524, P8XC528, P80C52X2, P87C52X2, P89C52X2, P89C536, P89C538, P80C54, P87C54, P89C54, P80C54X2, P87C54X2, P89C54X2, P8XC550, P80C552 | |
| P83C552, P87C552, P80C554, P83C554, P87C554, P80C557E4, P83C557E4, P89C557E4, P8XC557E6, P83C557E8, P87C557E8, P8XCE558, P8XCE559, P8XCE560, P83C562, P8XC562, P8XC575, P8XC576, P8XC58, P8XCL580, P80C58X2, P87C58X2, P89C58X2, P83C591, P87C591, P80C592, P83CE592, P87CE592, P80CE598, P83CE598, P87CE598, P89C60X2, P89C61X2, P80C652, P83C654, P83C654X2, P87C654X2, P89C660 | |
| P89V660, P83C660X2, P87C660X2, P83C661X2, P87C661X2, P89C662, P89V662, P89C664, P89V664, P89C668, P89C669, P89C738, P89C739, P8XC748, P8XC749, P8XC750, P8XC754, P87LPC760, P87LPC761, P87LPC762, P87LPC764, P87LPC767, P87LPC768, P87LPC769, P83CL781, P83CL782, P83CX80, P83C834, P83C845, P8XC851, P87CL881, P8XCL883, P8XCL884, P8XCL886, P8XCL887, P8XCL888, P89LPC901, P89LPC902 | |
| P89LPC903, P89LPC904, P89LPC906, P89LPC907, P89LPC908, P89LPC9102, P89LPC9103, P89LPC9107, P89LPC912, P89LPC913, P89LPC914, P89LPC915, P89LPC916, P89LPC917, P89LPC920, P89LPC921, P89LPC922, P89LPC924, P89LPC925, P89LPC930, P89LPC931, P89LPC932, P89LPC932A1, P89LPC933, P89LPC934, P89LPC935, P89LPC936, P89LPC938, P89LPC9401, P89LPC9408, TELX FAMILY, S8XC751, S8XC752, SZF2002, TPM749, TPM754 | |
| OKI Semiconductor | MSM85C154HVS, MSM8XC154S |
| Ramtron | VMX1020, VRS1000, VRS1001, VRS1001B, VRS550, VRS700L |
| Sharp Semiconductor | LZ87010 |
| Silicon Laboratories | C8051F0XX, C8051F01X, C8051F02X, C8051F04X, C8051F06X, C8051F12X, C8051F13X, C8051F2XX, C8051F30X, C8051F31X, C8051F32X, C8051F33X, C8051F34X, C8051F35X, C8051F36X, C8051F41X, C8051F50X, C8051F52X, C8051F53X, C8051T60X, C8051T61X, C8051T63X, C8051F92X, C8051F93X, SI825X |
| Silicon Storage Technology | SST89C54, SST89F54, SST89E554RC, SST89V554RC, SST89E564RD, SST89V564RD, SST89C58, SST89F58 |
| Siliconians | SS1102C, SS1119, SS8203 |
| Standard Microsystems Corporation | COM20051, LPC47N244, LPC47N250, LPC47N252, LPC47N253, LPC47N254, LPC47N259, LPC47N350, LPC47N359 |
| STMicroelectronics | UPSD3233BV-24, UPSD3233B-40, UPSD3234BV-24, UPSD3234A-40, UPSD3253BV-24, UPSD3253B-40, UPSD3254BV-24, UPSD3254BV-24, UPSD33XX, UPSD34XX |
| SyncMOS | SM79108, SM79164, SM89516, SM89516A, SM89T16R1 |
| TDK Semiconductor Corporation | TDK73M2909, TDK73M2910(L), 73S1111F, 73S1112F, 73S1121F, 71M6511 |
| Tezzaron Semiconductor | TSCR8051LX |
| Texas Instruments | TAS1020B, MSC1210XX, MSC1211XX, MSC1212XX, TUSB2136, TUSB3200, TUSB3210, TUSB3410, TUSB5052, TUSB5152, TUSB6250 |
| Triscend | E5 FAMILY |
| Versachips | V87C54, V87C58 |
| Vitesse Semiconductor | VSC7380 |
| WinEdge | WE52POXX |
| Zylogic | ZYLOGIC ES |
Hello everyone!
I've been asked by some friends who own a gallery whether I could design a cheap interactive guide for the visitors. Basically, we sat down and came up with the following:
The functionality will be like a typical music (mp3) player
ON/OFF switch,
Volume control
Small LCD to show track number
plus and minus buttons to select track
play/pause button
headphone jack
Visitors would get this device upon entering the gallery and each part of the gallery would correspond to a different 'track' on the device, so that they can listen about various things in the gallery. We can load tracks in different languages to these devices to make it easier for international visitors.
We decided to include about 20, 5 minute tracks, for a total of about 100 minutes of sound.
I've been doing some preliminary research today, but I am still unsure how to get started. The important thing is to make this very cheap (for mass production) since they will be given away for free ideally (or for a very low cost). In addition, what audio format do you suggest? ogg, wav, mp3, anything else?
Any thoughts or pointers?
Thanks,
-NSKL
I've been asked by some friends who own a gallery whether I could design a cheap interactive guide for the visitors. Basically, we sat down and came up with the following:
The functionality will be like a typical music (mp3) player
ON/OFF switch,
Volume control
Small LCD to show track number
plus and minus buttons to select track
play/pause button
headphone jack
Visitors would get this device upon entering the gallery and each part of the gallery would correspond to a different 'track' on the device, so that they can listen about various things in the gallery. We can load tracks in different languages to these devices to make it easier for international visitors.
We decided to include about 20, 5 minute tracks, for a total of about 100 minutes of sound.
I've been doing some preliminary research today, but I am still unsure how to get started. The important thing is to make this very cheap (for mass production) since they will be given away for free ideally (or for a very low cost). In addition, what audio format do you suggest? ogg, wav, mp3, anything else?
Any thoughts or pointers?
Thanks,
-NSKL