P87 P89 LPC MCU decryption

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Following is part of Philips chip which can be decrypted by FLYING STAR MCU decryption center. The specific model can be consulted by telephone.
P87C Series MCU declassified:
P87C51, P87C51MA2, P87C51MB2, P87C51MC2, P87C51SB, P87C51SF, P87C51UB, P87C51UF, P87C51X2, P87C51FA, P87C51FB, P87C51FC, P87C51RA +, P87C51RA2, P87C51RB +. P87C51RC2, P87C51RC2, P87C51RC2, P87C51RD +, P87C51RDC51RD2;
P87C52, P87C54, P87C58, P87C52X2, P87C54X2, P87C58X2, P87C52UBAA, P87C54UBAA, P87C524, P87C528, P87C550, P87C552, P87C554, P87C557, P87C575, P87C576, P87C591, P87C592;
P87C054, P87C055, P87C451, P87C453, P87C652, P87C654, P87C660X2, P87C661X2, P87C748, P87C749, P87C750, P87C751, P87C752, P87C754;
P87L series chips are decrypted:
P87L52X2, P87L54X2, P87L51FA, P87L51FB;
P89C Series MCU decryptiondeclassified:
P89C51, P89C51B, P89C51UB, P89C51UF, P89C51X2, P89C51X2B, P89C51RA2, P89C51RA2B, P89C51RB2B, P89C51RB2B, P89C51RB2H, P89C51RC2B, P89C51RC2B, P89C51RC2H, P89C51RD2B, P89C51RD2H, P89C51RD2 RDF;
P89C52, P89C52B, P89C52UB, P89C52UF, P89C52X2, P89C52X2, P89C52X2, P89C54B, P89C54UB, P89C54UF, P89C54X2, P89C54X2, P89C54X2, P89C54X2, P89C54X2, P89C58UB, P89C58UF, P89C58UF, P89C58X2, P89C58UF, P89C58X2, P89C58X2, P89C58X2, P89C58X2, P89C58X2;
P89C138, P89C238, P89C536, P89C538, P89C60X2, P89C61X2, P89C660, P89C662, P89C664, P89C668, P89C669, P89C73B, P89C738, P89C739, P89C838, P89CV51RB2, P89CV51RC2, P89CV51RC2, P89CV51RD2;
P89V Series MCU decryption declassified:
P89V51, P89V51RB2, P89V51RC2, P89V51RD2, P89V52, P89V660, P89V662, P89V664;
NXP LPC7000 Series MCU declassified:
P87LPC760, P87LPC761, P87LPC762, P87LPC764, P87LPC767, P87LPC768, P87LPC769, P87LPC778, P87LPC779;
NXP LPC9000 Series MCU decryption declassified:
P89LPC901, P89LPC901, P89LPC901, P89LPC902, P89LPC906, P89LPC906, P89LPC906, P89LPC906, P89LPC906, P89LPC9102, P89LPLPC9103, P89LPLPC9103, P89LPC9107, P89LPC912, P89LPC912, P89LPC912, P89LPC912, P89LPC912, P89LPC912, P89LPC919 9 9 9 9 9, P89LPC913, P89LPC913, P89LPC913, P89LPC913, P89LPC914, P89LPC915, P89LPC915, P89LPCC925, P89LPC930, P89LPC931, P89LPC9311, P89LPC932, P89LPC93 2A1, P89LPC933, P89LPC934, P89LPC935, P89LPC936, P89LPC938, P89LPC9401, P89LPC9408, P89LPC952, P89LPC954;
NXP XA Series MCU decryption (NXP NXP 16 MCU decryption):
PXAC37KFBD, PXAG17K, PXAG27K, PXAG30K, PXAG37K, PXAG39K, PXAG40K, PXAG49K, PXAH30K, PXAG40K, PXAS30K, PXAS37K;
NXP NXP LPC series ARM MCU decryption
ARM7 kernel MCU decryption:
LPC2101, LPC2101, LPC2102, LPC2102, LPC2103, LPC2104, LPC2104, LPC2105, LPC2105, LPC2106, LPC2106, LPC2109, LPC2109, LPC2114, LPC2119, LPC2124, LPC2124, LPC2129, LPC2129, LPC2131, LPC2131, LPC2132, LPC2134, LPC2134, LPC2136, LPC21316, LPC2138, LPC2138, LPC2141 141, LPC2141 14 14 14 14 8, LPC2148, LPC2194, LPC2194, LPC2194, LPC2212 212, LPC2212, LPC2212, LPC2212, LPC22124, LPC2292, C22924, C2294, C2294, C2361, 361, 367;
ARM9 kernel MCU decryption:
LPC2917FBD144, LPC2919FBD144, LPC2921FBD100, LPC2923FBD100, LPC2925FBD100, LPC2927FBD144, LPC2929FBD144, LPC2930FBD208, LPC2939FBD208, LPC3180FEL320, LPC3220FET296, LPC3240FET296;p

PHILIPS IC unlock

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At present, it has successfully broken through the decryption of PHILIPS series microcontroller models, and can provide efficient and reliable high-quality IC unlock services for customers. For the detailed model of PHILIPS series microcontroller IC unlock and LPC2138 microcontroller decryption cooperation details, please contact Flying Star technology chip decryption business department directly.
The LPC2138 microcontroller is based on a 16/32-bit ARM7TDMI-S*CPU that supports real-time simulation and embedded tracking with a 512kB embedded high-speed Flash memory. The 128-bit memory interface and unique acceleration structure enable 32-bit code to run at maximum clock rate. The 16-bit Thumb pattern can be used to reduce the code size by more than 30% for applications with strict code size control, while the performance loss is minimal. Smaller encapsulation and low power consumption make 2138 particularly suitable for small applications such as access control and POS machines; with a wide range of serial communication interfaces and 8/16/32kB on-chip SRAM, they are also well suited for communication gateways, protocol converters, software modems, voice recognition, low-end imaging, and provide broad specifications for these applications Module buffer and powerful processing function. Multiple 32-bit timers, one or two 10-bit 8-way ADCs, 10-bit DACs, PWM channels, 47 GPIOs, and up to nine edge or level-triggered external interruptions make them particularly suitable for industrial control applications and medical systems.
LPC2138 characteristics:
*16/32 bit ARM7TDMI-S core, ultra small LQFP64 package.
The *128 bit width interface / accelerator can achieve up to 60MHz working frequency.
* implemented in system programming / application programming (ISP/IAP) through on-chip boot loader.
The single Flash sector or the whole erase time is 400ms. The 256 byte row programming time is 1ms.
* Embedded ICE * RT and embedded tracking interface debug the code in real time and track it at high speed through on-chip RealMonitor software.
*2 8 bit 10 bit A/D converter, which provides 16 analog inputs.
The conversion time of each channel is as low as 2.44us.
*1 10 bit D/A converter can produce different analog outputs.
* 2 32-bit timers/external event counters (with 4-channel capture and 4-channel comparison), PWM units (6-channel output), and watchdog.
* low power real-time clock with independent power supply and specific 32kHz clock input.
* multiple serial interfaces, including 2 16C550 industrial standard UART, 2 high-speed I2C bus (400*kbit/s),
SPI and SSP with buffering and variable data length functions.
* vector interrupt controller. Priority and vector addresses can be configured.
* the small LQFP64 package contains up to 47 general I/O ports (withstanding 5V voltage).
* up to 9 edge or level triggered external interrupt pins.
* through the on-chip PLL (100US setup time), the maximum *CPU operation frequency of 60MHz can be achieved.
* the operation frequency range of the in chip integrated oscillator and external crystal is from 1 to 30*MHz.
The frequency range of operation with external oscillator is as high as 50MHz.
* low power mode: idle and power down.
* power consumption can be optimized through individual enable / inhibit external functions and peripheral clock divider.
* wakeup the processor from the power down mode by external interrupt or BOD.
* single power supply with power on reset (POR) and power down detection (BOD) circuit:
– CPU operation voltage range: 3.0~3.6*V* (3.3*V + 10%), I/O port can withstand 5V voltage.
Provide NXP LPC2138 single chip decryption service, only learning, research and other legitimate uses.