Single-chip 16-bit/32-bit microcontrollers; flash with ISP/IAP, full-s
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LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers; flash with ISP/IAP, full-speed device, 10-bit
Rev. November 2008 Product data sheet
LPC2141/42/44/46/48 microcontrollers based 16-bit/32-bit ARM7TDMI-S with real-time emulation embedded trace support, that combine microcontroller with embedded high-speed flash memory ranging from 128-bit wide memory interface unique accelerator architecture enable 32-bit code execution maximum clock rate. critical code size applications, alternative 16-bit Thumb mode reduces code more than with minimal performance penalty. their tiny size power consumption, LPC2141/42/44/46/48 ideal applications where miniaturization requirement, such access control point-of-sale. Serial communications interfaces ranging from Full-speed device, multiple UARTs, SPI, I2C-bus on-chip SRAM make these devices very well suited communication gateways protocol converters, soft modems, voice recognition imaging, providing both large buffer size high processing power. Various 32-bit timers, single dual 10-bit ADC(s), 10-bit DAC, channels fast GPIO lines with nine edge level sensitive external interrupt pins make these microcontrollers suitable industrial control medical systems.
Features
features
16-bit/32-bit ARM7TDMI-S microcontroller tiny LQFP64 package. on-chip static on-chip flash memory. 128-bit wide interface/accelerator enables high-speed operation. In-System Programming/In-Application Programming (ISP/IAP) on-chip boot loader software. Single flash sector full chip erase programming EmbeddedICE Embedded Trace interfaces offer real-time debugging with on-chip RealMonitor software high-speed tracing instruction execution. Full-speed compliant device controller with endpoint RAM. addition, LPC2146/48 provides on-chip accessible DMA. (LPC2141/42 LPC2144/46/48) 10-bit ADCs provide total 6/14 analog inputs, with conversion times 2.44 channel. Single 10-bit provides variable analog output (LPC2142/44/46/48 only). 32-bit timers/external event counters (with four capture four compare channels each), unit (six outputs) watchdog.
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
power Real-Time Clock (RTC) with independent power clock input. Multiple serial interfaces including UARTs (16C550), Fast I2C-bus (400 kbit/s), with buffering variable data length capabilities. Vectored Interrupt Controller (VIC) with configurable priorities vector addresses. tolerant fast general purpose pins tiny LQFP64 package. external interrupt pins available. maximum clock available from programmable on-chip with settling time On-chip integrated oscillator operates with external crystal from MHz. Power saving modes include Idle Power-down. Individual enable/disable peripheral functions well peripheral clock scaling additional power optimization. Processor wake-up from Power-down mode external interrupt BOD. Single power supply chip with circuits: operating voltage range (3.3 with tolerant pads.
Ordering information
Table Ordering information Package Name LPC2141FBD64 LPC2142FBD64 LPC2144FBD64 LPC2146FBD64 LPC2148FBD64 LQFP64 Description plastic profile quad flat package; leads; body Version SOT314-2 Type number
Ordering options
Table Ordering options Flash memory shared with DMA[1] shared with DMA[1] Endpoint (channels overall) channels) channels) channels) channels) channels) Temperature range Type number LPC2141FBD64 LPC2142FBD64 LPC2144FBD64 LPC2146FBD64 LPC2148FBD64
While primary user additional RAM, this also accessible time general purpose data code storage.
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Block diagram
TMS(1) TDI(1) TRST(1) TCK(1) TDO(1) XTAL2 XTAL1
EMULATION TRACE MODULE
LPC2141/42/44/46/48
P0[31:28] P0[25:0] P1[31:16]
TEST/DEBUG INTERFACE
PLL0 system clock PLL1 clock VECTORED INTERRUPT CONTROLLER SYSTEM FUNCTIONS
FAST GENERAL PURPOSE
ARM7TDMI-S
BRIDGE
ARM7 local
AMBA (Advanced High-performance Bus) INTERNAL SRAM CONTROLLER INTERNAL FLASH CONTROLLER SHARED WITH DMA(3) DECODER
kB/16 SRAM
kB/64 kB/128 kB/512 FLASH
BRIDGE
DIVIDER
EINT3 EINT0
EXTERNAL INTERRUPTS
FULL-SPEED DEVICE CONTROLLER WITH DMA(3)
UP_LED CONNECT VBUS SCL0, SCL1
CAP0 CAP1 MAT0 MAT1 AD0[7:6] AD0[4:1] AD1[7:0](2)
CAPTURE/COMPARE (W/EXTERNAL CLOCK) TIMER 0/TIMER
I2C-BUS SERIAL INTERFACES
SDA0, SDA1
SCK0, SCK1 CONVERTERS 1(2) SERIAL INTERFACES MOSI0, MOSI1 MISO0, MISO1 SSEL0, SSEL1 TXD0, TXD1
AOUT(4)
CONVERTER
UART0/UART1
RXD0, RXD1
P0[31:28] P0[25:0] P1[31:16]
GENERAL PURPOSE
REAL-TIME CLOCK
DSR1(2),CTS1(2), RTS1(2), DTR1(2) DCD1(2),RI1(2) RTXC1 RTXC2 VBAT
PWM6 PWM0
PWM0
WATCHDOG TIMER SYSTEM CONTROL
002aab560
Pins shared with GPIO. LPC2144/46/48 only. controller with accessible general purpose and/or available LPC2146/48 only. LPC2142/44/46/48 only.
Block diagram
B.V. 2008. rights reserved.
LPC2141_42_44_46_48_4
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Pinning information
Pinning
P0.19/MAT1.2/MOSI1/CAP1.2 P0.18/CAP1.3/MISO1/MAT1.3 P0.20/MAT1.3/SSEL1/EINT3
P0.23/VBUS
P1.30/TMS
P1.27/TDO
P1.29/TCK
P1.28/TDI
RESET
XTAL1
XTAL2
VREF
P0.21/PWM5/CAP1.3 P0.22/CAP0.0/MAT0.0 RTCX1 P1.19/TRACEPKT3 RTCX2 VDDA P1.18/TRACEPKT2 P0.25/AD0.4
VBAT
VSSA
P1.20/TRACESYNC P0.17/CAP1.2/SCK1/MAT1.2 P0.16/EINT0/MAT0.2/CAP0.2 P0.15/EINT2 P1.21/PIPESTAT0 P0.14/EINT1/SDA1 P1.22/PIPESTAT1 P0.13/MAT1.1 P0.12/MAT1.0 P0.11/CAP1.1/SCL1 P1.23/PIPESTAT2 P0.10/CAP1.0 P0.9/RXD1/PWM6/EINT3 P0.8/TXD1/PWM4
LPC2141
P1.17/TRACEPKT1 P0.28/AD0.1/CAP0.2/MAT0.2 P0.29/AD0.2/CAP0.3/MAT0.3 P0.30/AD0.3/EINT3/CAP0.0 P1.16/TRACEPKT0
P0.31/UP_LED/CONNECT
P0.0/TXD0/PWM1
P1.31/TRST
P0.1/RXD0/PWM3/EINT0
P0.2/SCL0/CAP0.0
P1.26/RTCK
P0.3/SDA0/MAT0.0/EINT1
P0.4/SCK0/CAP0.1/AD0.6
P1.25/EXTIN0
P0.5/MISO0/MAT0.1/AD0.7
P0.6/MOSI0/CAP0.2
P0.7/SSEL0/PWM2/EINT2
P1.24/TRACECLK
002aab733
LPC2141 pinning
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
P0.19/MAT1.2/MOSI1/CAP1.2
P0.18/CAP1.3/MISO1/MAT1.3
P0.20/MAT1.3/SSEL1/EINT3
P0.23/VBUS
P1.30/TMS
P1.27/TDO
P1.29/TCK
P1.28/TDI
RESET
XTAL1
XTAL2
VREF
P0.21/PWM5/CAP1.3 P0.22/CAP0.0/MAT0.0 RTCX1 P1.19/TRACEPKT3 RTCX2 VDDA P1.18/TRACEPKT2 P0.25/AD0.4/AOUT
VBAT
VSSA
P1.20/TRACESYNC P0.17/CAP1.2/SCK1/MAT1.2 P0.16/EINT0/MAT0.2/CAP0.2 P0.15/EINT2 P1.21/PIPESTAT0 P0.14/EINT1/SDA1 P1.22/PIPESTAT1 P0.13/MAT1.1 P0.12/MAT1.0 P0.11/CAP1.1/SCL1 P1.23/PIPESTAT2 P0.10/CAP1.0 P0.9/RXD1/PWM6/EINT3 P0.8/TXD1/PWM4
LPC2142
P1.17/TRACEPKT1 P0.28/AD0.1/CAP0.2/MAT0.2 P0.29/AD0.2/CAP0.3/MAT0.3 P0.30/AD0.3/EINT3/CAP0.0 P1.16/TRACEPKT0
P0.31/UP_LED/CONNECT
P0.0/TXD0/PWM1
P1.31/TRST
P0.1/RXD0/PWM3/EINT0
P0.2/SCL0/CAP0.0
P1.26/RTCK
P0.3/SDA0/MAT0.0/EINT1
P0.4/SCK0/CAP0.1/AD0.6
P1.25/EXTIN0
P0.5/MISO0/MAT0.1/AD0.7
P0.6/MOSI0/CAP0.2
P0.7/SSEL0/PWM2/EINT2
P1.24/TRACECLK
002aab734
LPC2142 pinning
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
P0.19/MAT1.2/MOSI1/CAP1.2
P0.18/CAP1.3/MISO1/MAT1.3
P0.20/MAT1.3/SSEL1/EINT3
P0.23/VBUS
P1.30/TMS
P1.27/TDO
P1.29/TCK
P1.28/TDI
RESET
XTAL1
XTAL2
VREF
P0.21/PWM5/AD1.6/CAP1.3 P0.22/AD1.7/CAP0.0/MAT0.0 RTCX1 P1.19/TRACEPKT3 RTCX2 VDDA P1.18/TRACEPKT2 P0.25/AD0.4/AOUT
VBAT
VSSA
P1.20/TRACESYNC P0.17/CAP1.2/SCK1/MAT1.2 P0.16/EINT0/MAT0.2/CAP0.2 P0.15/RI1/EINT2/AD1.5 P1.21/PIPESTAT0 P0.14/DCD1/EINT1/SDA1 P1.22/PIPESTAT1 P0.13/DTR1/MAT1.1/AD1.4 P0.12/DSR1/MAT1.0/AD1.3 P0.11/CTS1/CAP1.1/SCL1 P1.23/PIPESTAT2 P0.10/RTS1/CAP1.0/AD1.2 P0.9/RXD1/PWM6/EINT3 P0.8/TXD1/PWM4/AD1.1
LPC2144/2146/2148
P1.17/TRACEPKT1 P0.28/AD0.1/CAP0.2/MAT0.2 P0.29/AD0.2/CAP0.3/MAT0.3 P0.30/AD0.3/EINT3/CAP0.0 P1.16/TRACEPKT0
P0.31/UP_LED/CONNECT
P0.0/TXD0/PWM1
P1.31/TRST
P0.1/RXD0/PWM3/EINT0
P0.2/SCL0/CAP0.0
P1.26/RTCK
P0.3/SDA0/MAT0.0/EINT1
P0.4/SCK0/CAP0.1/AD0.6
P1.25/EXTIN0
P0.5/MISO0/MAT0.1/AD0.7
P0.6/MOSI0/CAP0.2/AD1.0
P0.7/SSEL0/PWM2/EINT2
P1.24/TRACECLK
002aab735
LPC2144/46/48 pinning
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
description
Table Symbol P0.0 P0.31 description Type Description Port Port 32-bit port with individual direction controls each bit. Total pins Port used general purpose bidirectional digital I/Os while P0.31 output only pin. operation port pins depends upon function selected connect block. Pins P0.24, P0.26 P0.27 available. P0.0/TXD0/ PWM1 19[1] P0.1/RXD0/ PWM3/EINT0 21[2] P0.2/SCL0/ CAP0.0 22[3] P0.3/SDA0/ MAT0.0/EINT1 26[3] P0.4/SCK0/ CAP0.1/AD0.6 27[4] P0.5/MISO0/ MAT0.1/AD0.7 29[4] P0.6/MOSI0/ CAP0.2/AD1.0 30[4] P0.7/SSEL0/ PWM2/EINT2 31[2] P0.8/TXD1/ PWM4/AD1.1 33[4]
LPC2141_42_44_46_48_4
P0.0 General purpose input/output digital (GPIO). TXD0 Transmitter output UART0. PWM1 Pulse Width Modulator output P0.1 General purpose input/output digital (GPIO). RXD0 Receiver input UART0. PWM3 Pulse Width Modulator output EINT0 External interrupt input. P0.2 General purpose input/output digital (GPIO). SCL0 I2C0 clock input/output. Open-drain output (for I2C-bus compliance). CAP0.0 Capture input Timer channel P0.3 General purpose input/output digital (GPIO). SDA0 I2C0 data input/output. Open-drain output (for I2C-bus compliance). MAT0.0 Match output Timer channel EINT1 External interrupt input. P0.4 General purpose input/output digital (GPIO). SCK0 Serial clock SPI0. clock output from master input slave. CAP0.1 Capture input Timer channel AD0.6 input P0.5 General purpose input/output digital (GPIO). MISO0 Master Slave SPI0. Data input master data output from slave. MAT0.1 Match output Timer channel AD0.7 input P0.6 General purpose input/output digital (GPIO). MOSI0 Master Slave SPI0. Data output from master data input slave. CAP0.2 Capture input Timer channel AD1.0 input Available LPC2144/46/48 only. P0.7 General purpose input/output digital (GPIO). SSEL0 Slave Select SPI0. Selects interface slave. PWM2 Pulse Width Modulator output EINT2 External interrupt input. P0.8 General purpose input/output digital (GPIO). TXD1 Transmitter output UART1. PWM4 Pulse Width Modulator output AD1.1 input Available LPC2144/46/48 only.
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Table Symbol
description .continued 34[2] Type Description P0.9 General purpose input/output digital (GPIO). RXD1 Receiver input UART1. PWM6 Pulse Width Modulator output EINT3 External interrupt input. P0.10 General purpose input/output digital (GPIO). RTS1 Request Send output UART1. LPC2144/46/48 only. CAP1.0 Capture input Timer channel AD1.2 input Available LPC2144/46/48 only. P0.11 General purpose input/output digital (GPIO). CTS1 Clear Send input UART1. Available LPC2144/46/48 only. CAP1.1 Capture input Timer channel SCL1 I2C1 clock input/output. Open-drain output (for I2C-bus compliance) P0.12 General purpose input/output digital (GPIO). DSR1 Data Ready input UART1. Available LPC2144/46/48 only. MAT1.0 Match output Timer channel AD1.3 input Available LPC2144/46/48 only. P0.13 General purpose input/output digital (GPIO). DTR1 Data Terminal Ready output UART1. LPC2144/46/48 only. MAT1.1 Match output Timer channel AD1.4 input Available LPC2144/46/48 only. P0.14 General purpose input/output digital (GPIO). DCD1 Data Carrier Detect input UART1. LPC2144/46/48 only. EINT1 External interrupt input. SDA1 I2C1 data input/output. Open-drain output (for I2C-bus compliance). Note: this while RESET forces on-chip boot loader take over control part after reset.
P0.9/RXD1/ PWM6/EINT3
P0.10/RTS1/ CAP1.0/AD1.2
35[4]
P0.11/CTS1/ CAP1.1/SCL1
37[3]
P0.12/DSR1/ MAT1.0/AD1.3
38[4]
P0.13/DTR1/ MAT1.1/AD1.4
39[4]
P0.14/DCD1/ EINT1/SDA1
41[3]
P0.15/RI1/ EINT2/AD1.5
45[4]
P0.15 General purpose input/output digital (GPIO). Ring Indicator input UART1. Available LPC2144/46/48 only. EINT2 External interrupt input. AD1.5 input Available LPC2144/46/48 only. P0.16 General purpose input/output digital (GPIO). EINT0 External interrupt input. MAT0.2 Match output Timer channel CAP0.2 Capture input Timer channel P0.17 General purpose input/output digital (GPIO). CAP1.2 Capture input Timer channel SCK1 Serial Clock SSP. Clock output from master input slave. MAT1.2 Match output Timer channel
P0.16/EINT0/ MAT0.2/CAP0.2
46[2]
P0.17/CAP1.2/ SCK1/MAT1.2
47[1]
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Table Symbol
description .continued 53[1] Type Description P0.18 General purpose input/output digital (GPIO). CAP1.3 Capture input Timer channel MISO1 Master Slave SSP. Data input master data output from slave. MAT1.3 Match output Timer channel P0.19 General purpose input/output digital (GPIO). MAT1.2 Match output Timer channel MOSI1 Master Slave SSP. Data output from master data input slave. CAP1.2 Capture input Timer channel P0.20 General purpose input/output digital (GPIO). MAT1.3 Match output Timer channel SSEL1 Slave Select SSP. Selects interface slave. EINT3 External interrupt input. P0.21 General purpose input/output digital (GPIO). PWM5 Pulse Width Modulator output AD1.6 input Available LPC2144/46/48 only. CAP1.3 Capture input Timer channel P0.22 General purpose input/output digital (GPIO). AD1.7 input Available LPC2144/46/48 only. CAP0.0 Capture input Timer channel MAT0.0 Match output Timer channel P0.23 General purpose input/output digital (GPIO). VBUS Indicates presence power. Note: This signal must HIGH reset occur. P0.25 General purpose input/output digital (GPIO). AD0.4 input AOUT output. Available LPC2142/44/46/48 only. P0.28 General purpose input/output digital (GPIO). AD0.1 input CAP0.2 Capture input Timer channel MAT0.2 Match output Timer channel P0.29 General purpose input/output digital (GPIO). AD0.2 input CAP0.3 Capture input Timer channel MAT0.3 Match output Timer channel P0.30 General purpose input/output digital (GPIO). AD0.3 input EINT3 External interrupt input. CAP0.0 Capture input Timer channel
P0.18/CAP1.3/ MISO1/MAT1.3
P0.19/MAT1.2/ MOSI1/CAP1.2
54[1]
P0.20/MAT1.3/ SSEL1/EINT3
55[2]
P0.21/PWM5/ AD1.6/CAP1.3
1[4]
P0.22/AD1.7/ CAP0.0/MAT0.0
2[4]
P0.23/VBUS
58[1]
P0.25/AD0.4/ AOUT
9[5]
P0.28/AD0.1/ CAP0.2/MAT0.2
13[4]
P0.29/AD0.2/ CAP0.3/MAT0.3
14[4]
P0.30/AD0.3/ EINT3/CAP0.0
15[4]
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Table Symbol
description .continued Type Description P0.31 General purpose output only digital (GPO). UP_LED GoodLink indicator. when device configured (non-control endpoints enabled). HIGH when device configured during global suspend. CONNECT Signal used switch external resistor under software control. Used with SoftConnect feature. Important: This digital output only pin. This MUST externally pulled when RESET JTAG port will disabled.
P0.31/UP_LED/ 17[6] CONNECT
P1.0 P1.31
Port Port 32-bit bidirectional port with individual direction controls each bit. operation port pins depends upon function selected connect block. Pins through port available. P1.16 General purpose input/output digital (GPIO). Standard port with internal pull-up. TRACEPKT0 Trace Packet, P1.17 General purpose input/output digital (GPIO). Standard port with internal pull-up. TRACEPKT1 Trace Packet, P1.18 General purpose input/output digital (GPIO). Standard port with internal pull-up. TRACEPKT2 Trace Packet, P1.19 General purpose input/output digital (GPIO). Standard port with internal pull-up. TRACEPKT3 Trace Packet, P1.20 General purpose input/output digital (GPIO). Standard port with internal pull-up. TRACESYNC Trace Synchronization. Note: this while RESET enables pins P1.25:16 operate Trace port after reset.
P1.16/ TRACEPKT0 P1.17/ TRACEPKT1 P1.18/ TRACEPKT2 P1.19/ TRACEPKT3 P1.20/ TRACESYNC
16[6]
12[6]
8[6]
4[6]
48[6]
P1.21/ PIPESTAT0 P1.22/ PIPESTAT1 P1.23/ PIPESTAT2 P1.24/ TRACECLK P1.25/EXTIN0
44[6]
P1.21 General purpose input/output digital (GPIO). Standard port with internal pull-up. PIPESTAT0 Pipeline Status, P1.22 General purpose input/output digital (GPIO). Standard port with internal pull-up. PIPESTAT1 Pipeline Status, P1.23 General purpose input/output digital (GPIO). Standard port with internal pull-up. PIPESTAT2 Pipeline Status, P1.24 General purpose input/output digital (GPIO). Standard port with internal pull-up. TRACECLK Trace Clock. P1.25 General purpose input/output digital (GPIO). Standard port with internal pull-up. EXTIN0 External Trigger Input.
40[6]
36[6]
32[6]
28[6]
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Table Symbol
description .continued 24[6] Type Description P1.26 General purpose input/output digital (GPIO). RTCK Returned Test Clock output. Extra signal added JTAG port. Assists debugger synchronization when processor frequency varies. Bidirectional with internal pull-up. Note: RTCK while RESET enables pins P1.31:26 operate Debug port after reset.
P1.26/RTCK
P1.27/TDO P1.28/TDI P1.29/TCK
64[6] 60[6] 56[6]
P1.27 General purpose input/output digital (GPIO). Test Data JTAG interface. P1.28 General purpose input/output digital (GPIO). Test Data JTAG interface. P1.29 General purpose input/output digital (GPIO). Test Clock JTAG interface. This clock must slower than clock (CCLK) JTAG interface operate. P1.30 General purpose input/output digital (GPIO). Test Mode Select JTAG interface. P1.31 General purpose input/output digital (GPIO). TRST Test Reset JTAG interface. bidirectional line. bidirectional line. External reset input: this resets device, causing ports peripherals take their default states, processor execution begin address with hysteresis, tolerant. Input oscillator circuit internal clock generator circuits. Output from oscillator amplifier. Input oscillator circuit. Output from oscillator circuit. Ground: reference. Analog ground: reference. This should nominally same voltage VSS, should isolated minimize noise error. power supply: This power supply voltage core ports. Analog power supply: This should nominally same voltage should isolated minimize noise error. This voltage only used power on-chip ADC(s) DAC. reference voltage: This should nominally less than equal voltage should isolated minimize noise error. Level this used reference ADC(s) DAC. power supply voltage: this supplies power RTC.
P1.30/TMS P1.31/TRST RESET
52[6] 20[6] 10[7] 11[7] 57[8]
XTAL1 XTAL2 RTCX1 RTCX2 VSSA VDDA
62[9] 61[9] 3[9] 5[9]
VREF
VBAT
tolerant built-in pull-up resistor) providing digital functions with levels hysteresis slew rate control. tolerant built-in pull-up resistor) providing digital functions with levels hysteresis slew rate control. configured input function, this utilizes built-in glitch filter that blocks pulses shorter than Open-drain tolerant digital I2C-bus specification compatible pad. requires external pull-up provide output functionality.
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
tolerant built-in pull-up resistor) providing digital (with levels hysteresis slew rate control) analog input function. configured input function, this utilizes built-in glitch filter that blocks pulses shorter than When configured input, digital section disabled. tolerant built-in pull-up resistor) providing digital (with levels hysteresis slew rate control) analog output function. When configured output, digital section disabled. tolerant with built-in pull-up resistor providing digital functions with levels hysteresis slew rate control. pull-up resistor's value typically ranges from designed accordance with Universal Serial (USB) specification, revision (Full-speed Low-speed mode only). tolerant providing digital input (with levels hysteresis) function only. provides special analog functionality.
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Functional description
Architectural overview
ARM7TDMI-S general purpose 32-bit microprocessor, which offers high performance very power consumption. architecture based Reduced Instruction Computer (RISC) principles, instruction related decode mechanism much simpler than those microprogrammed Complex Instruction Computers (CISC). This simplicity results high instruction throughput impressive real-time interrupt response from small cost-effective processor core. Pipeline techniques employed that parts processing memory systems operate continuously. Typically, while instruction being executed, successor being decoded, third instruction being fetched from memory. ARM7TDMI-S processor also employs unique architectural strategy known Thumb, which makes ideally suited high-volume applications with memory restrictions, applications where code density issue. idea behind Thumb that super-reduced instruction set. Essentially, ARM7TDMI-S processor instruction sets:
standard 32-bit set. 16-bit Thumb set.
Thumb set's 16-bit instruction length allows approach twice density standard code while retaining most ARM's performance advantage over traditional 16-bit processor using 16-bit registers. This possible because Thumb code operates same 32-bit register code. Thumb code able provide code size ARM, performance equivalent processor connected 16-bit memory system. particular flash implementation LPC2141/42/44/46/48 allows full speed execution also mode. recommended program performance critical short code sections (such interrupt service routines algorithms) mode. impact overall code size will minimal speed increased over Thumb mode.
On-chip flash program memory
LPC2141/42/44/46/48 incorporate flash memory system respectively. This memory used both code data storage. Programming flash memory accomplished several ways. programmed System serial port. application program also erase and/or program flash while application running, allowing great degree flexibility data storage field firmware upgrades, etc. architectural solution chosen on-chip boot loader, flash memory available user's code LPC2141/42/44/46/48 respectively. LPC2141/42/44/46/48 flash memory provides minimum 100000 erase/write cycles years data-retention.
LPC2141_42_44_46_48_4 B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
On-chip static
On-chip static used code and/or data storage. SRAM accessed 8-bit, 16-bit, 32-bit. LPC2141, LPC2142/44 LPC2146/48 provide static respectively. case LPC2146/48 only, SRAM block intended utilized mainly also used general purpose data storage code storage execution.
Memory
LPC2141/42/44/46/48 memory incorporates several distinct regions, shown Figure addition, interrupt vectors remapped allow them reside either flash memory (the default) on-chip static RAM. This described Section 6.19 "System control".
PERIPHERALS 3.75 PERIPHERALS RESERVED ADDRESS SPACE BOOT BLOCK REMAPPED FROM ON-CHIP FLASH MEMORY RESERVED ADDRESS SPACE
0xFFFF FFFF 0xF000 0000 0xE000 0000 0xC000 0000 0x8000 0000 0x7FFF FFFF 0x7FFF D000 0x7FFF CFFF 0x7FD0 2000 0x7FD0 1FFF ON-CHIP (LPC2146/2148) RESERVED ADDRESS SPACE ON-CHIP STATIC (LPC2146/2148) ON-CHIP STATIC (LPC2142/2144) ON-CHIP STATIC (LPC2141) 0x7FD0 0000 0x7FCF FFFF 0x4000 8000 0x4000 7FFF 0x4000 4000 0x4000 3FFF 0x4000 2000 0x4000 1FFF 0x4000 0000 0x3FFF FFFF 0x0008 0000 0x0007 FFFF 0x0004 0000 0x0003 FFFF 0x0002 0000 0x0001 FFFF 0x0001 0000 0x0000 FFFF 0x0000 8000 0x0000 7FFF 0x0000 0000
RESERVED ADDRESS SPACE TOTAL ON-CHIP NON-VOLATILE MEMORY (LPC2148) TOTAL ON-CHIP NON-VOLATILE MEMORY (LPC2146) TOTAL ON-CHIP NON-VOLATILE MEMORY (LPC2144) TOTAL ON-CHIP NON-VOLATILE MEMORY (LPC2142) TOTAL ON-CHIP NON-VOLATILE MEMORY (LPC2141)
002aab558
LPC2141/42/44/46/48 memory
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
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Semiconductors
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Single-chip 16-bit/32-bit microcontrollers
Interrupt controller
Vectored Interrupt Controller (VIC) accepts interrupt request inputs categorizes them Fast Interrupt Request (FIQ), vectored Interrupt Request (IRQ), non-vectored defined programmable settings. programmable assignment scheme means that priorities interrupts from various peripherals dynamically assigned adjusted. highest priority. more than request assigned FIQ, combines requests produce signal processor. fastest possible latency achieved when only request classified FIQ, because then service routine does need branch into interrupt service routine from interrupt vector location. more than request assigned class, service routine will read word from that identifies which source(s) (are) requesting interrupt. Vectored IRQs have middle priority. Sixteen interrupt requests assigned this category. interrupt requests assigned vectored slots, among which slot highest priority slot lowest. Non-vectored IRQs have lowest priority. combines requests from vectored non-vectored IRQs produce signal processor. service routine start reading register from jumping there. vectored IRQs pending, provides address highest-priority requesting IRQs service routine, otherwise provides address default routine that shared non-vectored IRQs. default routine read another register what IRQs active.
6.5.1 Interrupt sources
Each peripheral device interrupt line connected Vectored Interrupt Controller, have several internal interrupt flags. Individual interrupt flags also represent more than interrupt source.
connect block
connect block allows selected pins microcontroller have more than function. Configuration registers control multiplexers allow connection between chip peripherals. Peripherals should connected appropriate pins prior being activated, prior related interrupt(s) being enabled. Activity enabled peripheral function that mapped related should considered undefined. Control Module with select registers defines functionality microcontroller given hardware environment. After reset pins Port Port configured input with following exceptions: debug enabled, JTAG pins will assume their JTAG functionality; trace enabled, Trace pins will assume their trace functionality. pins associated with I2C0 I2C1 interface open drain.
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Product data sheet
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Single-chip 16-bit/32-bit microcontrollers
Fast general purpose parallel (GPIO)
Device pins that connected specific peripheral function controlled GPIO registers. Pins dynamically configured inputs outputs. Separate registers allow setting clearing number outputs simultaneously. value output register read back, well current state port pins. LPC2141/42/44/46/48 introduce accelerated GPIO functions over prior LPC2000 devices:
GPIO registers relocated local fastest possible timing. Mask registers allow treating sets port bits group, leaving other bits
unchanged.
GPIO registers byte addressable. Entire port value written instruction.
6.7.1 Features
Bit-level clear registers allow single instruction clear number
bits port.
Direction control individual bits. Separate control output clear. default inputs after reset. 10-bit
LPC2141/42 contain LPC2144/46/48 contain analog digital converters. These converters single 10-bit successive approximation analog digital converters. While ADC0 channels, ADC1 eight channels. Therefore, total number available inputs LPC2141/42 LPC2144/46/48
6.8.1 Features
successive approximation analog digital converter. Measurement range VREF (2.0 VREF VDDA). Each converter capable performing more than 400000 10-bit samples second. Every analog input dedicated result register reduce interrupt overhead. Burst conversion mode single multiple inputs. Optional conversion transition input timer match signal. Global Start command both converters (LPC2142/44/46/48 only).
10-bit
enables LPC2141/42/44/46/48 generate variable analog output. maximum output voltage VREF voltage.
6.9.1 Features
10-bit DAC. Buffered output. Power-down mode available.
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Product data sheet
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Semiconductors
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Single-chip 16-bit/32-bit microcontrollers
Selectable speed versus power. 6.10 device controller
4-wire serial that supports communication between host number (127 max) peripherals. host controller allocates bandwidth attached devices through token based protocol. supports plugging, unplugging, dynamic configuration devices. transactions initiated host controller. LPC2141/42/44/46/48 equipped with device controller that enables Mbit/s data exchange with host controller. consists register interface, serial interface engine, endpoint buffer memory controller. serial interface engine decodes data stream writes data appropriate point buffer memory. status completed transfer error condition indicated status registers. interrupt also generated enabled. controller (available LPC2146/48 only) transfer data between endpoint buffer RAM.
6.10.1 Features
Fully compliant with Full-speed specification. Supports physical logical) endpoints. Supports control, bulk, interrupt isochronous endpoints. Scalable realization endpoints time. Endpoint maximum packet size selection maximum specification) software time.
message buffer size based endpoint realization maximum packet size. Supports SoftConnect GoodLink indicator. These functions sharing
pin.
Supports bus-powered capability with suspend current. Supports transfer non-control endpoints (LPC2146/48 only). duplex channel serves endpoints (LPC2146/48 only). Allows dynamic switching between controlled modes (only LPC2146/48).
Double buffer implementation bulk isochronous endpoints. 6.11 UARTs
LPC2141/42/44/46/48 each contain UARTs. addition standard transmit receive data lines, LPC2144/46/48 UART1 also provides full modem control handshake interface. Compared previous LPC2000 microcontrollers, UARTs LPC2141/42/44/46/48 introduce fractional baud rate generator both UARTs, enabling these microcontrollers achieve standard baud rates such 115200 with crystal frequency above MHz. addition, auto-CTS/RTS flow-control functions fully implemented hardware (UART1 LPC2144/46/48 only).
LPC2141_42_44_46_48_4 B.V. 2008. rights reserved.
Product data sheet
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LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
6.11.1 Features
Receive Transmit FIFOs. Register locations conform 16C550 industry standard. Receiver FIFO trigger points Built-in fractional baud rate generator covering wide range baud rates without need external crystals particular values. control both UARTs.
Transmission FIFO control enables implementation software (XON/XOFF) flow LPC2144/46/48 UART1 equipped with standard modem interface signals. This
module also provides full support hardware flow control (auto-CTS/RTS).
6.12 I2C-bus serial controller
LPC2141/42/44/46/48 each contain I2C-bus controllers. I2C-bus bidirectional, inter-IC control using only wires: serial clock line (SCL), serial data line (SDA). Each device recognized unique address operate either receiver-only device (e.g., driver transmitter with capability both receive send information (such memory)). Transmitters and/or receivers operate either master slave mode, depending whether chip initiate data transfer only addressed. I2C-bus multi-master bus, controlled more than master connected I2C-bus implemented LPC2141/42/44/46/48 supports rates kbit/s (Fast I2C-bus).
6.12.1 Features
Compliant with standard I2C-bus interface. Easy configure master, slave, master/slave. Programmable clocks allow versatile rate control. Bidirectional data transfer between masters slaves. Multi-master central master). Arbitration between simultaneously transmitting masters without corruption serial data bus. serial bus.
Serial clock synchronization allows devices with different rates communicate Serial clock synchronization used handshake mechanism suspend
resume serial transfer.
I2C-bus used test diagnostic purposes. 6.13 serial controller
LPC2141/42/44/46/48 each contain controller. full duplex serial interface, designed handle multiple masters slaves connected given bus. Only single master single slave communicate interface during given data transfer. During data transfer master always sends byte data slave, slave always sends byte data master.
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Product data sheet
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LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
6.13.1 Features
Compliant with specification. Synchronous, Serial, Full Duplex, Communication. Combined master slave. Maximum data rate eighth input clock rate.
6.14 serial controller
LPC2141/42/44/46/48 each contain Serial Synchronous Port controller (SSP). controller capable operation SPI, 4-wire SSI, Microwire bus. interact with multiple masters slaves bus. However, only single master single slave communicate during given data transfer. supports full duplex transfers, with data frames bits bits data flowing from master slave from slave master. Often only these data flows carries meaningful data.
6.14.1 Features
Compatible with Motorola's SPI, TI's 4-wire National Semiconductor's
Microwire buses.
Synchronous serial communication. Master slave operation. 8-frame FIFOs both transmit receive. Four bits bits frame.
6.15 General purpose timers/external event counters
Timer/Counter designed count cycles peripheral clock (PCLK) externally supplied clock optionally generate interrupts perform other actions specified timer values, based four match registers. also includes four capture inputs trap timer value when input signal transitions, optionally generating interrupt. Multiple pins selected perform single capture match function, providing application with `or' `and', well `broadcast' functions among them. LPC2141/42/44/46/48 count external events capture inputs minimum external pulse equal longer than period PCLK. this configuration, unused capture lines selected regular timer capture inputs, used external interrupts.
6.15.1 Features
32-bit timer/counter with programmable 32-bit prescaler. External event counter timer operation. Four 32-bit capture channels timer/counter that take snapshot timer
value when input signal transitions. capture event also optionally generate interrupt.
Four 32-bit match registers that allow:
Continuous operation with optional interrupt generation match.
LPC2141_42_44_46_48_4 B.V. 2008. rights reserved.
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Single-chip 16-bit/32-bit microcontrollers
Stop timer match with optional interrupt generation. Reset timer match with optional interrupt generation.
Four external outputs timer/counter corresponding match registers, with
following capabilities: match. HIGH match. Toggle match. nothing match.
6.16 Watchdog timer
purpose watchdog reset microcontroller within reasonable amount time enters erroneous state. When enabled, watchdog will generate system reset user program fails `feed' reload) watchdog within predetermined amount time.
6.16.1 Features
Internally resets chip periodically reloaded. Debug mode. Enabled software requires hardware reset watchdog reset/interrupt
disabled.
Incorrect/Incomplete feed sequence causes reset/interrupt enabled. Flag indicate watchdog reset. Programmable 32-bit timer with internal pre-scaler. Selectable time period from (Tcy(PCLK) (Tcy(PCLK) multiples Tcy(PCLK)
6.17 Real-time clock
designed provide counters measure time when normal idle operating mode selected. been designed little power, making suitable battery powered systems where running continuously (Idle mode).
6.17.1 Features
Measures passage time maintain calendar clock. Ultra-low power design support battery powered systems. Provides Seconds, Minutes, Hours, Month, Month, Year, Week,
Year.
either dedicated oscillator input clock derived from
external crystal/oscillator input XTAL1. Programmable reference clock divider allows fine adjustment RTC.
Dedicated power supply connected battery main
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Product data sheet
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Single-chip 16-bit/32-bit microcontrollers
6.18 Pulse width modulator
based standard timer block inherits features, although only function pinned LPC2141/42/44/46/48. timer designed count cycles peripheral clock (PCLK) optionally generate interrupts perform other actions when specified timer values occur, based seven match registers. function also based match register events. ability separately control rising falling edge locations allows used more applications. instance, multi-phase motor control typically requires three non-overlapping outputs with individual control three pulse widths positions. match registers used provide single edge controlled output. match register (MR0) controls cycle rate, resetting count upon match. other match register controls edge position. Additional single edge controlled outputs require only match register each, since repetition rate same outputs. Multiple single edge controlled outputs will have rising edge beginning each cycle, when match occurs. Three match registers used provide output with both edges controlled. Again, match register controls cycle rate. other match registers control edge positions. Additional double edge controlled outputs require only match registers each, since repetition rate same outputs. With double edge controlled outputs, specific match registers control rising falling edge output. This allows both positive going pulses (when rising edge occurs prior falling edge), negative going pulses (when falling edge occurs prior rising edge).
6.18.1 Features
Seven match registers allow single edge controlled three double edge
controlled outputs, both types.
match registers also allow:
Continuous operation with optional interrupt generation match. Stop timer match with optional interrupt generation. Reset timer match with optional interrupt generation.
Supports single edge controlled and/or double edge controlled outputs. Single
edge controlled outputs HIGH beginning each cycle unless output constant LOW. Double edge controlled outputs have either edge occur position within cycle. This allows both positive going negative going pulses.
Pulse period width number timer counts. This allows complete
flexibility trade-off between resolution repetition rate. outputs will occur same repetition rate.
Double edge controlled outputs programmed either positive going
negative going pulses.
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Product data sheet
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Semiconductors
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Single-chip 16-bit/32-bit microcontrollers
Match register updates synchronized with pulse outputs prevent generation
erroneous pulses. Software must `release' match values before they become effective.
used standard timer mode enabled. 32-bit Timer/Counter with programmable 32-bit Prescaler. 6.19 System control
6.19.1 Crystal oscillator
On-chip integrated oscillator operates with external crystal range MHz. oscillator output frequency called fosc processor clock frequency referred CCLK purposes rate equations, etc. fosc CCLK same value unless running connected. Refer Section 6.19.2 "PLL" additional information.
6.19.2
accepts input clock frequency range MHz. input frequency multiplied into range with Current Controlled Oscillator (CCO). multiplier integer value from practice, multiplier value cannot higher than this family microcontrollers upper frequency limit CPU). operates range MHz, there additional divider loop keep within frequency range while providing desired output frequency. output divider divide produce output clock. Since minimum output divider value insured that output duty cycle. turned bypassed following chip reset enabled software. program must configure activate PLL, wait Lock, then connect clock source. settling time
6.19.3 Reset wake-up timer
Reset sources LPC2141/42/44/46/48: RESET watchdog reset. RESET Schmitt trigger input with additional glitch filter. Assertion chip reset source starts Wake-up Timer (see Wake-up Timer description below), causing internal chip reset remain asserted until external reset de-asserted, oscillator running, fixed number clocks have passed, on-chip flash controller completed initialization. When internal reset removed, processor begins executing address which reset vector. that point, processor peripheral registers have been initialized predetermined values. Wake-up Timer ensures that oscillator other analog functions required chip operation fully functional before processor allowed execute instructions. This important power types reset, whenever aforementioned functions turned reason. Since oscillator other functions turned during Power-down mode, wake-up processor from Power-down mode makes Wake-up Timer.
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Single-chip 16-bit/32-bit microcontrollers
Wake-up Timer monitors crystal oscillator means checking whether safe begin code execution. When power applied chip, some event caused chip exit Power-down mode, some time required oscillator produce signal sufficient amplitude drive clock logic. amount time depends many factors, including rate ramp case power on), type crystal electrical characteristics quartz crystal used), well other external circuitry (e.g. capacitors), characteristics oscillator itself under existing ambient conditions.
6.19.4 Brownout detector
LPC2141/42/44/46/48 include 2-stage monitoring voltage pins. this voltage falls below asserts interrupt signal VIC. This signal enabled interrupt; not, software monitor signal reading dedicated register. second stage voltage detection asserts reset inactivate LPC2141/42/44/46/48 when voltage pins falls below This reset prevents alteration flash operation various elements chip would otherwise become unreliable voltage. circuit maintains this reset down below which point circuitry maintains overall reset. Both thresholds include some hysteresis. normal operation, this hysteresis allows detection reliably interrupt, regularly-executed event loop sense condition.
6.19.5 Code security
This feature LPC2141/42/44/46/48 allow application control whether debugged protected from observation. after reset on-chip boot loader detects valid checksum flash reads 0x8765 4321 from address 0x1FC flash, debugging will disabled thus code flash will protected from observation. Once debugging disabled, enabled only performing full chip erase using ISP.
6.19.6 External interrupt inputs
LPC2141/42/44/46/48 include nine edge level sensitive External Interrupt Inputs selectable functions. When pins combined, external events processed four independent interrupt signals. External Interrupt Inputs optionally used wake-up processor from Power-down mode. Additionally capture input pins also used external interrupts without option wake device from Power-down mode.
6.19.7 Memory mapping control
Memory Mapping Control alters mapping interrupt vectors that appear beginning address 0x0000 0000. Vectors mapped bottom on-chip flash memory, on-chip static RAM. This allows code running different memory spaces have control interrupts.
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Product data sheet
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Single-chip 16-bit/32-bit microcontrollers
6.19.8 Power control
LPC2141/42/44/46/48 supports reduced power modes: Idle mode Power-down mode. Idle mode, execution instructions suspended until either reset interrupt occurs. Peripheral functions continue operation during Idle mode generate interrupts cause processor resume execution. Idle mode eliminates power used processor itself, memory systems related controllers, internal buses. Power-down mode, oscillator shut down chip receives internal clocks. processor state registers, peripheral registers, internal SRAM values preserved throughout Power-down mode logic levels chip output pins remain static. Power-down mode terminated normal operation resumed either reset certain specific interrupts that able function without clocks. Since dynamic operation chip suspended, Power-down mode reduces chip power consumption nearly zero. Selecting external clock instead PCLK clock-source on-chip will enable microcontroller have active during Power-down mode. Power-down current increased with active. However, significantly lower than Idle mode. Power Control Peripherals feature allows individual peripherals turned they needed application, resulting additional power savings during active Idle mode.
6.19.9
divider determines relationship between processor clock (CCLK) clock used peripheral devices (PCLK). divider serves purposes. first provide peripherals with desired PCLK that they operate speed chosen processor. order achieve this, slowed down processor clock rate. Because must work properly power-up (and timing cannot altered does work since divider control registers reside bus), default condition reset processor clock rate. second purpose divider allow power savings when application does require peripherals full processor rate. Because divider connected output, remains active running) during Idle mode.
6.20 Emulation debugging
LPC2141/42/44/46/48 support emulation debugging JTAG serial port. trace port allows tracing program execution. Debugging trace functions multiplexed only with GPIOs Port This means that communication, timer interface peripherals residing Port available during development debugging phase they when application embedded system itself.
6.20.1 EmbeddedICE
Standard EmbeddedICE logic provides on-chip debug support. debugging target system requires host computer running debugger software EmbeddedICE protocol convertor. EmbeddedICE protocol convertor converts remote debug protocol commands JTAG data needed access core.
LPC2141_42_44_46_48_4 B.V. 2008. rights reserved.
Product data sheet
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Semiconductors
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Single-chip 16-bit/32-bit microcontrollers
core Debug Communication Channel (DCC) function built-in. allows program running target communicate with host debugger another separate host without stopping program flow even entering debug state. accessed co-processor program running ARM7TDMI-S core. allows JTAG port used sending receiving data without affecting normal program flow. data control registers mapped addresses EmbeddedICE logic. This clock must slower than clock (CCLK) JTAG interface operate.
6.20.2 Embedded trace
Since LPC2141/42/44/46/48 have significant amounts on-chip memory, possible determine processor core operating simply observing external pins. Embedded Trace Macrocell (ETM) provides real-time trace capability deeply embedded processor cores. outputs information about processor execution trace port. connected directly core main AMBA system bus. compresses trace information exports through narrow trace port. external trace port analyzer must capture trace information under software debugger control. Instruction trace trace) shows flow execution processor provides list instructions that were executed. Instruction trace significantly compressed only broadcasting branch addresses well status signals that indicate pipeline status cycle cycle basis. Trace information generation controlled selecting trigger resource. Trigger resources include address comparators, counters sequencers. Since trace information compressed software debugger requires static image code being executed. Self-modifying code traced because this restriction.
6.20.3 RealMonitor
RealMonitor configurable software module, developed Inc., which enables real-time debug. lightweight debug monitor that runs background while users debug their foreground application. communicates with host using DCC, which present EmbeddedICE logic. LPC2141/42/44/46/48 contain specific configuration RealMonitor software programmed into on-chip flash memory.
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Limiting values
Table Limiting values accordance with Absolute Maximum Rating System (IEC 60134).[1] Symbol VDDA Vi(VBAT) Vi(VREF) Parameter supply voltage (core external rail) analog supply voltage input voltage VBAT input voltage VREF analog input voltage input voltage related pins tolerant pins; only valid when supply voltage present other pins Tstg Ptot(pack) supply current ground current storage temperature total power dissipation (per package) based package heat transfer, device power consumption human body model pins
Conditions
-0.5 -0.5
+3.6 +4.6 +4.6 +4.6 +5.1 +6.0
Unit
-0.5 -0.5 -0.5 -0.5
[2][3]
-0.5
+150
supply ground
Vesd
electrostatic discharge voltage
-4000
+4000
following applies Limiting values: This product includes circuitry specifically designed protection internal devices from damaging effects excessive static charge. Nonetheless, suggested that conventional precautions taken avoid applying greater than rated maximum. Parameters valid over operating temperature range unless otherwise specified. voltages with respect unless otherwise noted. Including voltage outputs 3-state mode. exceed peak current limited times corresponding maximum current. Dependent package type. Human body model: equivalent discharging capacitor through series resistor.
LPC2141_42_44_46_48_4
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Product data sheet
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Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Static characteristics
Table Static characteristics Tamb commercial applications, unless otherwise specified. Symbol VDDA Vi(VBAT) Vi(VREF) Parameter supply voltage analog supply voltage input voltage VBAT input voltage VREF LOW-level input current OFF-state output current latch-up current input voltage output voltage HIGH-level input voltage LOW-level input voltage hysteresis voltage HIGH-level output voltage LOW-level output voltage HIGH-level output current LOW-level output current HIGH-level short-circuit output current LOW-level short-circuit output current pull-down current pull-up current VDDA
Conditions
Typ[1]
VDDA
Unit
Standard port pins, RESET, RTCK Ilatch Vhys IOHS IOLS pull-up VDD; pull-up/down -(0.5VDD) (1.5VDD); configured provide digital function output active
[4][5][6]
HIGH-level input current VDD; pull-down
[10] [11] [10]
LPC2141_42_44_46_48_4
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Product data sheet
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Semiconductors
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Single-chip 16-bit/32-bit microcontrollers
Table Static characteristics .continued Tamb commercial applications, unless otherwise specified. Symbol IDD(act) Parameter active mode supply current Conditions Tamb code Typ[1] Unit
while(1){}
executed from flash, active peripherals CCLK CCLK Tamb code executed from flash; enabled active; other peripherals disabled CCLK CCLK IDD(pd) IBATpd Power-down mode supply current Power-down mode battery supply current Tamb Tamb clock (from RTCX pins); Tamb Vi(VBAT) Vi(VBAT) IBATact active mode battery supply current CCLK MHz; PCLK MHz; PCLK enabled RTCK; clock (from RTCX pins); Tamb Vi(VBAT) IBATact(opt) optimized active mode battery supply current PCLK disabled RTCK PCONP register; clock (from RTCX pins); Tamb Vi(VBAT) CCLK CCLK I2C-bus Vhys pins HIGH-level input voltage LOW-level input voltage hysteresis voltage LOW-level output voltage input leakage current IOLS Oscillator pins Vi(XTAL1) input voltage XTAL1
[12][13] [12] [12]
0.7VDD 0.5VDD 0.3VDD
[14]
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Product data sheet
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Semiconductors
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Single-chip 16-bit/32-bit microcontrollers
Table Static characteristics .continued Tamb commercial applications, unless otherwise specified. Symbol Vo(XTAL2) Vi(RTCX1) Vo(RTCX2) pins VBUS Vth(rs)se OFF-state output current VBUS line input voltage connector differential input sensitivity differential common-mode range single-ended receiver switching threshold voltage output level HIGH output level transceiver capacitance
[15]
Parameter output voltage XTAL2 input voltage RTCX1 output voltage RTCX2
Conditions
Typ[1]
Unit
5.25
|(D+) (D-)| includes range
Ctrans ZDRV
driver output impedance steady state drive driver which high-speed capable pull-up resistance SoftConnect
Typical ratings guaranteed. values listed room temperature °C), nominal supply voltages. Core external rail. typically fails when Vi(VBAT) drops below Including voltage outputs 3-state mode. supply voltages must present. 3-state outputs into 3-state mode when grounded. Please also errata note mentioned errata sheet. Accounts voltage drop supply lines. Allowed long current limit does exceed maximum current allowed device.
[10] Minimum condition maximum condition [11] Applies P1.16 P1.31. [12] VBAT. [13] Optimized battery consumption. [14] VSS. [15] Includes external resistors
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Single-chip 16-bit/32-bit microcontrollers
Table static characteristics VDDA Tamb unless otherwise specified; frequency MHz. Symbol EL(adj) Rvsi Parameter analog input voltage analog input capacitance differential linearity error integral non-linearity offset error gain error absolute error voltage source interface resistance
monotonic, there missing codes. differential linearity error (ED) difference between actual step width ideal step width. Figure integral non-linearity (EL(adj)) peak difference between center steps actual ideal transfer curve after appropriate adjustment gain offset errors. Figure offset error (EO) absolute difference between straight line which fits actual curve straight line which fits ideal curve. Figure gain error (EG) relative difference percent between straight line fitting actual transfer curve after removing offset error, straight line which fits ideal transfer curve. Figure absolute error (ET) maximum difference between center steps actual transfer curve non-calibrated ideal transfer curve. Figure Figure
Conditions
VDDA ±0.5
Unit
VSSA VDDA VSSA VDDA VSSA VDDA VSSA VDDA VSSA VDDA
[1][2]
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Single-chip 16-bit/32-bit microcontrollers
offset error 1023
gain error
1022
1021
1020
1019
1018
code
(ideal) 1018 1019 1020 1021 1022 1023 1024
offset error (LSBideal)
VDDA VSSA 1024
002aab136
Example actual transfer curve. ideal transfer curve. Differential linearity error (ED). Integral non-linearity (EL(adj)). Center step actual transfer curve.
characteristics
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Single-chip 16-bit/32-bit microcontrollers
LPC2141/42/44/46/48
ADx.ySAMPLE
ADx.y
Rvsi
VEXT
002aab834
Suggested interface LPC2141/42/44/46/48 ADx.y
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B.V. 2008. rights reserved.
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Single-chip 16-bit/32-bit microcontrollers
Dynamic characteristics
Table Dynamic characteristics pins (full-speed) VDD, unless otherwise specified. Symbol tFRFM VCRS tFEOPT tFDEOP tJR1 tJR2 tEOPR1 Parameter rise time fall time differential rise fall time matching output signal crossover voltage source interval source jitter differential transition transition receiver jitter next transition receiver jitter paired transitions width receiver must reject EOP; Figure must accept EOP; Figure
Conditions (tr/tf)
+18.5
Unit
Figure Figure
-18.5
tEOPR2
width receiver
Characterized implemented production test. Guaranteed design.
Table Dynamic characteristics Tamb commercial applications, over specified ranges[1] Symbol External clock fosc Tcy(clk) tCHCX tCLCX tCLCH tCHCL tr(o) tf(o) I2C-bus tf(o)
Parameter oscillator frequency clock cycle time clock HIGH time clock time clock rise time clock fall time output rise time output fall time pins (P0.2, P0.3, P0.11, P0.14) output fall time
Conditions
Tcy(clk) Tcy(clk)
Typ[2]
Unit
Port pins (P0.2, P0.3, P0.11, P0.14)
Cb[3]
Parameters valid over operating temperature range unless otherwise specified. Typical ratings guaranteed. values listed room temperature °C), nominal supply voltages. capacitance from
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Timing
tCHCL
tCLCX Tcy(clk)
tCHCX tCLCH
002aaa907
External clock timing (with amplitude least Vi(RMS)
tPERIOD crossover point differential data lines
crossover point extended
source width: tFEOPT differential data SE0/EOP skew tPERIOD tFDEOP
receiver width: tEOPR1, tEOPR2
002aab561
Differential data-to-EOP transition skew width
Application information
10.1 Suggested interface solutions
CONNECT soft-connect switch
LPC2141/42/ 44/46/48
VBUS
USB-B connector
002aab563
LPC2141/42/44/46/48 interface using CONNECT function
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
LPC2141/42/ 44/46/48
UP_LED VBUS
USB-B connector
002aab562
LPC2141/42/44/46/48 interface using UP_LED function
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Package outline
LQFP64: plastic profile quad flat package; leads; body SOT314-2
index detail
scale
DIMENSIONS original dimensions) UNIT max. 0.20 0.05 1.45 1.35 0.25 0.27 0.17 0.18 0.12 10.1 10.1 0.75 0.45 0.12 1.45 1.05 1.45 1.05
12.15 12.15 11.85 11.85
Note Plastic metal protrusions 0.25 maximum side included. OUTLINE VERSION SOT314-2 REFERENCES 136E10 JEDEC MS-026 JEITA EUROPEAN PROJECTION
ISSUE DATE 00-01-19 03-02-25
Package outline SOT314-2 (LQFP64)
LPC2141_42_44_46_48_4 B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Abbreviations
Table Acronym FIFO GPIO SRAM UART Acronym list Description Analog-to-Digital Converter Advanced Peripheral Brown-Out Detection Central Processing Unit Digital-to-Analog Converter Debug Communications Channel Direct Memory Access Packet First First General Purpose Input/Output Phase-Locked Loop Power-On Reset Pulse Width Modulator Random Access Memory Single Ended Zero Serial Peripheral Interface Static Random Access Memory Synchronous Serial Port Universal Asynchronous Receiver/Transmitter Universal Serial
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Revision history
Table Revision history Release date 20081117 Data sheet status Product data sheet Change notice Supersedes LPC2141_42_44_46_48_3 Document LPC2141_42_44_46_48_4 Modifications:
Replaced occurrences with APB. Table clarified which pins do/don't have internal pull-ups. Table changed storage temperature range from °C/125 °C/150 Table added Table note input voltage spec. Table modified Table note Table moved hysteresis voltage (0.4 from column. Figure updated figure figure title, removed note Product data sheet Product data sheet Preliminary data sheet LPC2141_42_44_46_48_2 LPC2141_42_44_46_48_1
LPC2141_42_44_46_48_3 LPC2141_42_44_46_48_2 LPC2141_42_44_46_48_1
20071019 20060828 20051003
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Legal information
14.1 Data sheet status
Document status[1][2] Objective [short] data sheet Preliminary [short] data sheet Product [short] data sheet
Product status[3] Development Qualification Production
Definition This document contains data from objective specification product development. This document contains data from preliminary specification. This document contains product specification.
Please consult most recently issued document before initiating completing design. term `short data sheet' explained section "Definitions". product status device(s) described this document have changed since this document published differ case multiple devices. latest product status information available Internet http://www.nxp.com.
14.2 Definitions
Draft document draft version only. content still under internal review subject formal approval, which result modifications additions. Semiconductors does give representations warranties accuracy completeness information included herein shall have liability consequences such information. Short data sheet short data sheet extract from full data sheet with same product type number(s) title. short data sheet intended quick reference only should relied upon contain detailed full information. detailed full information relevant full data sheet, which available request local Semiconductors sales office. case inconsistency conflict with short data sheet, full data sheet shall prevail.
damage. Semiconductors accepts liability inclusion and/or Semiconductors products such equipment applications therefore such inclusion and/or customer's risk. Applications Applications that described herein these products illustrative purposes only. Semiconductors makes representation warranty that such applications will suitable specified without further testing modification. Limiting values Stress above more limiting values defined Absolute Maximum Ratings System 60134) cause permanent damage device. Limiting values stress ratings only operation device these other conditions above those given Characteristics sections this document implied. Exposure limiting values extended periods affect device reliability. Terms conditions sale Semiconductors products sold subject general terms conditions commercial sale, published including those pertaining warranty, intellectual property rights infringement limitation liability, unless explicitly otherwise agreed writing Semiconductors. case inconsistency conflict between information this document such terms conditions, latter will prevail. offer sell license Nothing this document interpreted construed offer sell products that open acceptance grant, conveyance implication license under copyrights, patents other industrial intellectual property rights.
14.3 Disclaimers
General Information this document believed accurate reliable. However, Semiconductors does give representations warranties, expressed implied, accuracy completeness such information shall have liability consequences such information. Right make changes Semiconductors reserves right make changes information published this document, including without limitation specifications product descriptions, time without notice. This document supersedes replaces information supplied prior publication hereof. Suitability Semiconductors products designed, authorized warranted suitable medical, military, aircraft, space life support equipment, applications where failure malfunction Semiconductors product reasonably expected result personal injury, death severe property environmental
14.4 Trademarks
Notice: referenced brands, product names, service names trademarks property their respective owners. I2C-bus logo trademark B.V. SoftConnect trademark B.V. GoodLink trademark B.V.
Contact information
more information, please visit: http://www.nxp.com sales office addresses, please send email salesaddresses@nxp.com
LPC2141_42_44_46_48_4
B.V. 2008. rights reserved.
Product data sheet
Rev. November 2008
Semiconductors
LPC2141/42/44/46/48
Single-chip 16-bit/32-bit microcontrollers
Contents
6.5.1 6.7.1 6.8.1 6.9.1 6.10 6.10.1 6.11 6.11.1 6.12 6.12.1 6.13 6.13.1 6.14 6.14.1 6.15 6.15.1 6.16 6.16.1 6.17 6.17.1 6.18 6.18.1 6.19 6.19.1 6.19.2 6.19.3 6.19.4 General description Features features Ordering information Ordering options Block diagram Pinning information Pinning description Functional description Architectural overview. On-chip flash program memory On-chip static RAM. Memory map. Interrupt controller Interrupt sources. connect block Fast general purpose parallel (GPIO) Features 10-bit Features 10-bit Features device controller Features UARTs Features I2C-bus serial controller Features serial controller. Features serial controller Features General purpose timers/external event counters Features Watchdog timer. Features Real-time clock Features Pulse width modulator Features System control Crystal oscillator Reset wake-up timer Brownout detector. 6.19.5 6.19.6 6.19.7 6.19.8 6.19.9 6.20 6.20.1 6.20.2 6.20.3 10.1 14.1 14.2 14.3 14.4 Code security External interrupt inputs Memory mapping control Power control Emulation debugging. EmbeddedICE Embedded trace. RealMonitor Limiting values Static characteristics Dynamic characteristics Timing Application information Suggested interface solutions Package outline Abbreviations Revision history Legal information Data sheet status Definitions Disclaimers. Trademarks Contact information Contents.
Please aware that important notices concerning this document product(s) described herein, have been included section `Legal information'.
B.V. 2008.
rights reserved.
more information, please visit: http://www.nxp.com sales office addresses, please send email salesaddresses@nxp.com Date release: November 2008 Document identifier: LPC2141_42_44_46_48_4
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