MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 MSP430FW42x Mixed-Signal Microcontroller FEATURES 1 • • 2 • • • • • • • • • • • • • • Low Supply Voltage Range: 1.8 V to 3.6 V Ultra-Low-Power Consumption: – Active Mode: 200 µA at 1 MHz, 2.2 V – Standby Mode: 0.7 µA – Off Mode (RAM Retention): 0.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage. ESD damage can range from subtle performance degradation to complete device failure.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 AVCC DVSS AVSS P6.2/SIFCH2 P6.1/SIFCH1 P6.0/SIFCH0 RST/NMI TCK TMS TDI/TCLK TDO/TDI P1.0/TA0.0 P1.1/TA0.0/MCLK P1.2/TA0.1 P1.3/TA1.0/SVSOUT P1.4/TA1.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Table 1. Terminal Functions TERMINAL NAME NO. I/O DESCRIPTION AVCC 64 Analog supply voltage, positive terminal. Supplies SVS, brownout, oscillator, comparator_A, scan IF AFE, port 6, and LCD resistive divider circuitry; must not power up prior to DVCC. AVSS 62 Analog supply voltage, negative terminal. Supplies SVS, brownout, oscillator, comparator_A, scan IF AFE. and port 6.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Table 1. Terminal Functions (continued) TERMINAL NAME NO. I/O DESCRIPTION P3.2/S15 27 I/O General-purpose digital I/O LCD segment output 15 (1) P3.3/S14 26 I/O General-purpose digital I/O LCD segment output 14 (1) P3.4/S13 25 I/O General-purpose digital I/O LCD segment output 13 (1) P3.5/S12 24 I/O General-purpose digital I/O LCD segment output 12 (1) P3.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Table 1. Terminal Functions (continued) TERMINAL NAME NO. I/O DESCRIPTION P6.3/SIFCH3/ SIFCAOUT 2 I/O General-purpose digital I/O Scan IF, channel 3 sensor excitation output and signal input Scan IF comparator output P6.4/SIFCI0 3 I/O General-purpose digital I/O Scan IF, channel 0 signal input to comparator P6.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Short-Form Description CPU The MSP430 CPU has a 16-bit RISC architecture that is highly transparent to the application. All operations, other than program-flow instructions, are performed as register operations in conjunction with seven addressing modes for source operand and four addressing modes for destination operand.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Operating Modes The MSP430 has one active mode and five software-selectable low-power modes of operation. An interrupt event can wake up the device from any of the five low-power modes, service the request, and restore back to the low-power mode on return from the interrupt program.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Interrupt Vector Addresses The interrupt vectors and the power-up starting address are located in the address range 0FFFFh to 0FFE0h. The vector contains the 16-bit address of the appropriate interrupt-handler instruction sequence. Table 4.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Special Function Registers Most interrupt and module-enable bits are collected in the lowest address space. Special-function register bits not allocated to a functional purpose are not physically present in the device. This arrangement provides simple software access.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Memory Organization Table 5.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Flash Memory The flash memory can be programmed via the JTAG port, the bootstrap loader, or in system by the CPU. The CPU can perform single-byte and single-word writes to the flash memory. Features of the flash memory include: • • • • Flash memory has n segments of main memory and two segments of information memory (A and B) of 128 bytes each.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Peripherals Peripherals are connected to the CPU through data, address, and control buses and can be handled using all instructions. For complete module descriptions, refer to the MSP430x4xx Family User's Guide (SLAU056).
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Scan Interface The scan interface is used to measure linear or rotational motion and supports LC and resistive sensors such as GMR sensors. The scan IF incorporates a VCC/2 generator, a comparator, and a 10-bit DAC and supports up to four sensors. Timer0_A3 Timer0_A3 is a 16-bit timer/counter with three capture/compare registers.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Timer1_A5 Timer1_A5 is a 16-bit timer/counter with five capture/compare registers. Timer1_A5 can support multiple capture/compares, PWM outputs, and interval timing. Timer1_A5 also has extensive interrupt capabilities. Interrupts may be generated from the counter on overflow conditions and from each of the capture/compare registers. Table 7.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Peripheral File Map Table 8.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Table 8.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Table 9.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Absolute Maximum Ratings (1) over operating free-air temperature range (unless otherwise noted) Voltage applied at VCC to VSS Voltage applied to any pin -0.3 V to 4.1 V (2) -0.3 V to VCC + 0.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Electrical Characteristics Supply Current Into AVCC + DVCC Excluding External Current (FW423, FW425, FW427) (1) over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TA TYP MAX 2.2 V 200 250 3V 300 350 2.2 V 57 70 3V 92 100 2.2 V 11 14 3V 17 22 -40°C 0.95 1.4 -10°C 0.8 1.3 0.7 1.2 60°C 0.95 1.4 85°C 1.6 2.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Supply Current Into AVCC + DVCC Excluding External Current (FW428, FW429) (1) over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TA TYP MAX 2.2 V 210 290 3V 320 390 2.2 V 60 75 3V 95 110 2.2 V 11 14 3V 17 22 -40°C 0.95 1.4 -10°C 0.8 1.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Schmitt-Trigger Inputs − Ports (P1, P2, P3, P4, P5, P6), RST/NMI, JTAG (TCK, TMS, TDI/TCLK) over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS VIT+ Positive-going input threshold voltage VIT- Negative-going input threshold voltage Vhys Input voltage hysteresis (VIT+ - VIT- ) MIN TYP MAX VCC = 2.2 V 1.1 1.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Outputs − Ports (P1, P2, P3, P4, P5, P6) over recommended operating free-air temperature range (unless otherwise noted) PARAMETER VOH High-level output voltage VOL (1) (2) Low-level output voltage TEST CONDITIONS MIN TYP MAX IOH(max) = -1.5 mA, VCC = 2.2 V (1) VCC - 0.25 VCC IOH(max) = -6 mA, VCC = 2.2 V (2) VCC - 0.6 VCC IOH(max) = -1.5 mA, VCC = 3 V (1) VCC - 0.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com TYPICAL LOW -LEVEL OUTPUT CURRENT vs LOW-LEVEL OUTPUT VOL TAGE TYPICAL LOW -LEVEL OUTPUT CURRENT vs LOW-LEVEL OUTPUT VOL TAGE 40 TA = 25°C VCC = 2.2 V P2.4 IOL − Typical Low-Level Output Current − mA IOL − Typical Low-Level Output Current − mA 25 20 TA = 85°C 15 10 5 0 0.0 nd 0.5 1.0 1.5 2.0 VCC = 3 V P2.4 35 TA = 85°C 30 25 20 15 10 5 0 0.0 2.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Wake-UP LPM3 over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS MIN TYP MAX f = 1 MHz td(LPM3) Delay time UNIT 6 f = 2 MHz VCC = 2.2 V, 3 V 6 f = 3 MHz µs 6 RAM over recommended operating free-air temperature range (unless otherwise noted) PARAMETER (1) TEST CONDITIONS MIN CPU halted (1) VRAMh TYP MAX 1.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Comparator_A (1) over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS VCC I(CC) CAON = 1, CARSEL = 0, CAREF = 0 I(Refladder/RefDiode) CAON = 1, CARSEL = 0, CAREF = 1/2/3, No load at P1.6/CA0 and P1.7/CA1 MIN TYP MAX 2.2 V 25 40 3V 45 60 2.2 V 30 50 3V 45 71 V(Ref025) Voltage @ 0.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 REFERENCE VOLTAGE vs FREE-AIR TEMPERATURE 650 V(RefVT) − Reference Voltage − mV VCC = 2.2 V 600 Typical 550 500 450 400 −45 −25 −5 15 35 55 75 95 TA − Free-Air Temperature − °C Figure 7. 0V 0 VCC CAF 1 CAON To Internal Modules Low Pass Filter V+ V− + _ 0 0 1 1 CAOUT Set CAIFG Flag τ ≈ 2 µs Figure 8.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com POR, BOR (1) over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS MIN TYP td(BOR) Brownout (2) V(B_IT-) V(B_IT- dVCC/dt ≤ 3 V/s (see Figure 10) t(reset) Pulse duration needed at RST/NMI pin to accepted reset internally, VCC = 2.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 VCC VCC (drop) − V 2 1.5 t pw 3V V cc = 3 V Typical Conditions 1 VCC(drop) 0.5 t f = tr 0 0.001 1 1000 tf tr t pw − Pulse Width − µs t pw − Pulse Width − µs Figure 12.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Software Sets VLD>0: SVS is Active VCC Vhys(SVS_IT−) V (SVS_IT−) V(SVSstart) Vhys(B_IT−) V(B_IT−) VCC(start) Brownout Region Brownout Brownout Region 1 0 SVS out t d(BOR) t d(BOR) SVS Circuit is Active From VLD > to V CC < V (B_IT−) 1 0 t d(SVSon) Set POR 1 t d(SVSR) Undefined 0 Figure 13.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 DCO over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS VCC f(DCOCLK) N(DCO) = 01Eh, FN_8 = FN_4 = FN_3 = FN_2 = 0, D = 2, DCOPLUS = 0, fCrystal = 32.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 Sn - Stepsize Ratio between DCO T aps SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com 1.17 Max 1.11 1.07 1.06 Min 1 20 27 DCO Tap Figure 16.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Crystal Oscillator, LFXT1 Oscillator (1) (2) over recommended operating free-air temperature range (unless otherwise noted) PARAMETER CXIN Integrated input capacitance (3) TEST CONDITIONS VCC MIN OSCCAPx = 0h 0 OSCCAPx = 1h 10 OSCCAPx = 2h 2.2 V, 3 V Integrated output capacitance (3) 0 OSCCAPx = 1h 10 2.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Scan IF, Port Drive, Port Timing over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS VCC MIN TYP MAX UNIT VOL(SIFCHx) Voltage drop due to excitation transistor's on-resistance (see Figure 18) I(SIFCHx) = 2 mA, SIFTEN = 1 3V 0.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Scan IF, Sample Capacitor/Ri Timing (1) over operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS VCC MIN TYP MAX UNIT CSHC(SIFCHx) Sample capacitance at SIFCHx pin SIFEx(tsm) = 1, SIFSH = 1 2.2 V, 3 V 5 7 pF Ri(SIFCHx) Serial input resistance at the SIFCHx pin SIFEx(tsm) = 1, SIFSH = 1 2.2 V, 3 V 1.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Scan IF, 10-bit DAC over operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS AVCC Analog supply voltage AVCC = DVCC (connected together) AVSS = DVSS (connected together) AICC Scan IF 10-bit DAC operating supply current into AVCC terminal CL at SIFCOM pin = 470 nF ±20%, frefresh(SIFCOM) = 32768 Hz VCC MIN TYP 2.2 MAX 3.6 2.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Scan IF, SIFCLK Oscillator over operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS VCC AVCC = DVCC (connected together), AVSS = DVSS (connected together) MIN TYP 2.2 MAX 3.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 JTAG Interface over recommended operating free-air temperature range (unless otherwise noted) PARAMETER TEST CONDITIONS fTCK TCK input frequency (1) RInternal Internal pullup resistance on TMS, TCK, TDI/TCLK (2) (1) (2) VCC MIN TYP MAX UNIT 2.2 V 0 5 MHz 3V 0 10 MHz 2.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com APPLICATION INFORMATION Port P1, P1.0 to P1.5, Input/Output With Schmitt Trigger Pad Logic CAPD.x P1SEL.x 0: Input 1: Output 0 P1DIR.x Direction Control From Module P1OUT.x 1 0 1 Module X OUT Bus keeper P1.0/TA0.0 P1.1/TA0.0/MCLK P1.2/TA0.1 P1.3/TA1.0/SVSOUT P1.4/TA1.0 P1.5/TA0CLK/ACLK P1IN.x EN D Module X IN P1IE.x P1IRQ.x P1IFG.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Port P1, P1.6, P1.7 Input/Output With Schmitt Trigger Pad Logic Note: Port Function Is Active if CAPD.6 = 0 CAPD.6 P1SEL.6 0: Input 1: Output 0 P1DIR.6 1 P1DIR.6 P1.6/ CA0 0 P1OUT.6 1 DVSS Bus Keeper P1IN.6 EN D unused P1IE.7 P1IRQ.07 EN Interrupt Edge Select Q P1IFG.7 Set P1IES.x P1SEL.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Port P2, P2.0 to P2.7, Input/Output With Schmitt Trigger P2.0, P2.1 LCDPx.0 LCDPx.1 P2.2 to P2.5 LCDPx.2 P2.6, P2.7 0: Port Active 1: Segment xx Function Active Pad Logic Segment xx P2SEL.x 0: Input 1: Output 0 P2DIR.x Direction Control From Module P2OUT.x 1 0 P2.x 1 Module X OUT Bus keeper P2.0/TA0.2 P2.1/TA1.1 P2.2/TA1.2/S23 P2.3/TA1.3/S22 P2.4/TA1.4/S21 P2.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Port P3, P3.0 to P3.7, Input/Output With Schmitt Trigger LCDPx.0 P3.2 to P3.7 LCDPx.1 LCDPx.2 P3.0, P3.1 0: Port Active 1: Segment xx Function Active Pad Logic Segment xx P3SEL.x 0: Input 1: Output 0 P3DIR.x Direction Control From Module P3OUT.x 1 0 1 Module X OUT P3.x Bus keeper P3.0/S17 P3.1/S16 P3.2/S15 P3.3/S14 P3.4/S13 P3.5/S12 P3.6/S11 P3.7/S10 P3IN.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Port P4, P4.0 to P4.7, Input/Output With Schmitt Trigger LCDPx.0 LCDPx.1 LCDPx.2 0: Port Active 1: Segment xx Function Active Pad Logic Segment xx P4SEL.x 0: Input 1: Output 0 P4DIR.x Direction Control From Module P4OUT.x 1 0 P4.x 1 Module X OUT Bus keeper P4.0/S9 P4.1/S8 P4.2/S7 P4.3/S6 P4.4/S5 P4.5/S4 P4.6/S3 P4.7/S2 P4IN.x EN D Module X IN NOTE: 0 ≤ x ≤ 7 44 PnSEL.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Port P5, P5.0, P5.1, Input/Output With Schmitt Trigger LCDPx.0 0: Port Active 1: Segment Function Active LCDPx.1 LCDPx.2 Pad Logic Segment xx or COMx or Rxx P5SEL.x 0: Input 1: Output 0 P5DIR.x Direction Control From Module P5OUT.x 1 0 1 Module X OUT P5.x Bus keeper P5.0/S1 P5.1/S0 P5IN.x EN D Module X IN NOTE: x = 0, 1 PnSEL.x PnDIR.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Port P5, P5.2 to P5.4, Input/Output With Schmitt Trigger 0: Port Active 1: COMx Function Active Pad Logic COMx P5SEL.x 0: Input 1: Output 0 P5DIR.x Direction Control From Module P5OUT.x Module X OUT 1 0 P5.x 1 Bus keeper P5.2/COM1 P5.3/COM2 P5.4/COM3 P5IN.x EN D Module X IN NOTE: 2 ≤ x ≤ 4 46 PnSEL.x PnDIR.x Direction Control From Module PnOUT.x Module X OUT PnIN.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Port P5, P5.5 to P5.7, Input/Output With Schmitt Trigger 0: Port Active 1: Rxx Function Active Pad Logic Rxx P5SEL.x 0: Input 1: Output 0 P5DIR.x Direction Control From Module P5OUT.x Module X OUT 1 0 P5.x 1 Bus keeper P5.5/R13 P5.6/R23 P5.7/R33 P5IN.x EN D Module X IN NOTE: 5 ≤ x ≤ 7 PnSEL.x PnDIR.x Direction Control From Module PnOUT.x Module X OUT PnIN.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Port P6, P6.0, P6.1, P6.2, P6.4, P6.5, Input/Output With Schmitt Trigger P6SEL.x 0 P6DIR.x Direction Control From Module 0: Input 1: Output 1 Pad Logic 0 P6OUT.x Module X OUT P6.X 1 P6.0/SIFCH0 P6.1/SIFCH1 P6.2/SIFCH2 P6.4/SIFCI0 P6.5/SIFCI1 Bus Keeper P6IN.x EN Module X IN D To/From Scan I/F P6SEL.x must be set if the corresponding pins are used by the Scan IF .
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 NOTE The signal at pins P6.x/SIFCHx and P6.x/SIFCIx are shared by Port P6 and the Scan IF module. P6SEL.x must be set if the corresponding pins are used by the Scan IF. Port P6, P6.3 Input/Output With Schmitt Trigger P6SEL.3 0 P6DIR.3 1 0: Input 1: Output Pad Logic 0 P6OUT.x SIFCAOUT P6.3/SIFCH3/SIFCAOUT 1 Bus Keeper P6IN.3 EN Module X IN D To/From Scan I/F P6SEL.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.com Port P6, P6.6 Input/Output With Schmitt Trigger P6SEL.6 0 P6DIR.6 0: Input 1: Output 1 Pad Logic 0 P6OUT.6 DVss P6.6/SIFCI2/DACOUT 1 Bus Keeper P6IN.6 EN Module X IN D 1 From Scan I/F DAC To Scan I/F comparator input mux P6SEL.x must be set if the corresponding pins are used by the Scan IF .
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 Port P6, P6.7 Input/Output With Schmitt Trigger SVS VLDx=15 P6SEL.7 P6DIR.7 0 0: Input 1: Output 1 Pad Logic 0 P6OUT.7 DVss P6.7/SIFCI3/SVSIN 1 Bus Keeper P6IN.7 EN Module X IN D SVS VLDx=15 1 To SVS To Scan I/F comparator (+) terminal P6SEL.x must be set if the corresponding pins are used by the Scan IF .
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 www.ti.com SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 JTAG Fuse Check Mode MSP430 devices that have the fuse on the TDI/TCLK terminal have a fuse check mode that tests the continuity of the fuse the first time the JTAG port is accessed after a power-on reset (POR). When activated, a fuse check current (I(TF)) of 1.8 mA at 3 V can flow from the TDI/TCLK pin to ground if the fuse is not burned.
MSP430FW429, MSP430FW428 MSP430FW427, MSP430FW425, MSP430FW423 SLAS383E – OCTOBER 2003 – REVISED DECEMBER 2013 www.ti.
PACKAGE OPTION ADDENDUM www.ti.
PACKAGE OPTION ADDENDUM www.ti.com 29-Nov-2013 Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame retardants (Br or Sb do not exceed 0.1% by weight in homogeneous material) (3) MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.
PACKAGE MATERIALS INFORMATION www.ti.com 5-Dec-2013 TAPE AND REEL INFORMATION *All dimensions are nominal Device Package Package Pins Type Drawing SPQ Reel Reel A0 Diameter Width (mm) (mm) W1 (mm) B0 (mm) K0 (mm) P1 (mm) W Pin1 (mm) Quadrant MSP430FW423IPMR LQFP PM 64 1000 330.0 24.4 13.0 13.0 2.1 16.0 24.0 Q2 MSP430FW423IPMR LQFP PM 64 1000 330.0 24.4 13.0 13.0 2.1 16.0 24.0 Q2 MSP430FW425IPMR LQFP PM 64 1000 330.0 24.4 13.0 13.0 2.1 16.0 24.
PACKAGE MATERIALS INFORMATION www.ti.com 5-Dec-2013 *All dimensions are nominal Device Package Type Package Drawing Pins SPQ Length (mm) Width (mm) Height (mm) MSP430FW423IPMR LQFP PM 64 1000 367.0 367.0 45.0 MSP430FW423IPMR LQFP PM 64 1000 336.6 336.6 41.3 MSP430FW425IPMR LQFP PM 64 1000 336.6 336.6 41.3 MSP430FW427IPMR LQFP PM 64 1000 336.6 336.6 41.3 MSP430FW428IPMR LQFP PM 64 1000 336.6 336.6 41.3 MSP430FW429IPMR LQFP PM 64 1000 336.6 336.6 41.
MECHANICAL DATA MTQF008A – JANUARY 1995 – REVISED DECEMBER 1996 PM (S-PQFP-G64) PLASTIC QUAD FLATPACK 0,27 0,17 0,50 0,08 M 33 48 49 32 64 17 0,13 NOM 1 16 7,50 TYP Gage Plane 10,20 SQ 9,80 12,20 SQ 11,80 0,25 0,05 MIN 0°– 7° 0,75 0,45 1,45 1,35 Seating Plane 0,08 1,60 MAX 4040152 / C 11/96 NOTES: A. B. C. D. All linear dimensions are in millimeters. This drawing is subject to change without notice.
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