CY8C20234, CY8C20334, CY8C20434, CY8C20534 PSoC(R) Mixed-Signal Array

PSoC 5.0% 6/12 MHz CapSense 32 khz Capsense IO GPIO Harvard CMOS M8C 12 MHz 28 GPIO 2.4V 5.25V 1 IO -40 C +85 C 3.0V 1 20mA 1 5mA. 8K 50000 / 512 SRAM IO ISSP I 2 C: 50 khz 100 khz 400 khz SPI: 46.9 khz 3 MHz (PSoC Designer ) I 2 C SPI SPI 128K Port 3 Port 2 Port 1 Port 0 Config LDO PSoC PSoC CORE System Bus SRAM 512 Bytes Interrupt Controller SROM CPU Core (M8C) Global Analog Interconnect Flash 8K Sleep and Watchdog 6/12 MHz Internal Main Oscillator ANALOG CapSense SYSTEM Block Analog Ref. 12C I2C Slave/SPI POR and LVD Analog Master-Slave - System Resets Mux SYSTEM RESOURCES 198 Champion Court, CA 95134-1709 408-943-2600 001-50521 ** 2008 6 13

PSoC 1. PSoC MCU PSoC ID AC PSoC CPU SRAM IO PSoC 3 Vr CapSense CY8C20x34 PSoC CapSense Reference Buffer Cinternal PSoC 28 GPIOGPIO MCU Comparator Mux Analog Global Bus PSoC Mux Refs PSoC M8C CPU SRAM Cap CapSense Sense Counters IMO ILO M8C 12 MHz M8C 2MIPS 8 Harvard CSCLK Relaxation I 2 CapSense IMO C Clock Oscillator Select (RO) (RO) /SPI - M8C CapSense PSoC 1 1.8V 28 CapSense GPIO CapSense GPIO CapSense IO IO http://www.cypress.com >> DESIGN RESOURCES >> Application Notes. CapSense SNR 5:1. 001-50521 ** 2 34

LIN.http://www.cypress.com/techtrain. I 2 C /SPI - 2 50/100/400 khz 3 4 SPI 46.9 khz 3 MHz PSoC LVD PSoC PSoC POR PSoC http://www.cypress.com, CYPros 1.8V 5V 3V IO LDO PSoC http://www.cypress.com/support/login.cfm. PSoC PSoC Designer 4 IDE PSoC "PSoC " http://www.cypress.com/psoc. PSoC http://www.cypress.com http://www.cypress.com. PSoC PSoC Designer Microsoft Windows Digi-Key Avnet PSoC Arrow Future C PSoC Designer IDE Windows NT 4.0 PSoC Windows 2000 Windows Millennium (Me) Windows XP http://www.cypress.com, PSoC Designer. PSoC PSoC Designer PSoC PSoC CPU CYASM PSoC PSoC PSoC Designer PSoC C 001-50521 ** 3 34

CY8C20534, CY8C20434 PSoC Designer 2. PSoC Designer Graphical Designer Context Designer Interface Sensitive Help C Importable Design Database Device Database Application Database Project Database User Modules Library Commands Results PSoC Designer Core Engine PSoC Configuration Sheet Manufacturing Information File C C PSoC C PSoC C C PSoC PSoC Designer PSoC IO CPU Emulation In-Circuit Device Pod Emulator Programmer PSoC Designer PSoC ADC DAC ICE USB PSoC Designer PSoC PC PSoC 1 PSoC 24 PSoC MHz PSoC Designer PSoC PSoC C PSoC 001-50521 ** 4 34

IO 3. Device Editor Placement User Source and Module Code PSoC Designer IDE Parameter Selection Generator -ization " " Generate Application Application Editor PSoC 8 Project Source Build Code Manager Manager Editor API API Build All API PSoC Designer IDE Debugger Event & Interface Storage ICE Breakpoint to ICE Inspector Manager GUI PSoC Designer PSoC IO C " " PSoC Designer "Grep " Build API Manager "makefile" 16 PSoC Designer 16 ICE 001-50521 ** 5 34

AC API CPU DC GPIO GUI ICE ILO IMO IO / LSb LVD MSb POR PPOR PSoC Programmable System-on-Chip ( ) SLIMO IMO SRAM 13 6 PSoC 16 "h" "14h" "3Ah" 16 C "0x" "b" "01010100b" "01000011b" "h" "b" 0x 10 001-50521 ** 6 34

CY8C20234 CY8C20334 CY8C20434 PSoC CY8C20x34 PSoC "P" IO Vss Vdd XRES IO 16-4. CY8C20234 16- PSoC AI, P2[5] AI, I2C SCL, SPI SS, P1[7] AI, I2C SDA, SPI MISO, P1[5] 1 12 2 QFN 11 3 (Top View) 10 4 9 AI, SPI CLK, P1[3] P0[1], AI P0[3], AI P0[7], AI Vdd AI, P2[1] 16 15 14 13 P0[4], AI XRES P1[4], AI, EXTCLK P1[2], AI CLK, I2C SCL, SPI MOSI P1[1] Vss AI, DATA, I2C SDA, P1[0] 5 6 7 8 1. 16 (QFN [2] ) 1 IO I P2[5] 2 IO I P2[1] 3 IOH I P1[7] I 2 C SCL, SPI SS. 4 IOH I P1[5] I 2 C SDA, SPI MISO. 5 IOH I P1[3] SPI CLK. 6 IOH I P1[1] CLK [1], I 2 C SCL, SPI MOSI. 7 Vss 8 IOH I P1[0] DATA [1], I 2 C SDA. 9 IOH I P1[2] 10 IOH I P1[4] (EXTCLK). 11 XRES 12 IO I P0[4] 13 Vdd 14 IO I P0[7] 15 IO I P0[3] 16 IO I P0[1] A =, I =, O =, OH = 5 1. ISSP POR 2. QFN CP Vss 001-50521 ** 7 34

24-5. CY8C20334 24- PSoC P0[3], AI P0[5], AI P0[7], AI Vdd AI, P2[5] AI, P2[3] AI, P2[1] AI, I2C SCL, SPI SS, P1[7] AI, I2C SDA, SPI MISO, P1[5] AI, SPI CLK, P1[3] 24 1 2 3 4 5 6 23 22 21 20 19 QFN (Top View) 7 8 9 10 11 12 18 17 16 15 14 13 P0[4], AI P0[2], AI P0[0], AI P2[0], AI XRES P1[6], AI AI, CLK*, I2C SCL SPI MOSI, P1[1] NC Vss AI, DATA*, I2C SDA, P1[0] AI, P1[2] AI, EXTCLK, P1[4] P0[1], AI P0[6], AI 2. 24 (QFN [2] ) 1 IO I P2[5] 2 IO I P2[3] 3 IO I P2[1] 4 IOH I P1[7] I 2 C SCL, SPI SS. 5 IOH I P1[5] I 2 C SDA, SPI MISO. 6 IOH I P1[3] SPI CLK. 7 IOH I P1[1] CLK [1], I 2 C SCL, SPI MOSI. 8 NC 9 Vss 10 IOH I P1[0] DATA [1], I 2 C SDA. 11 IOH I P1[2] 12 IOH I P1[4] (EXTCLK). 13 IOH I P1[6] 14 XRES 15 IO I P2[0] 16 IO I P0[0] 17 IO I P0[2] 18 IO I P0[4] 19 IO I P0[6] 20 Vdd 21 IO I P0[7] 22 IO I P0[5] 23 IO I P0[3] 24 IO I P0[1] CP Vss A =, I =, O =, OH = 5 001-50521 ** 8 34

28-6. CY8C20534 28- PSoC A, I, M, P0[7] A, I, M, P0[5] A, I, M, P0[3] A, I, M, P0[1] M,P2[7] M,P2[5] M, P2[3] M, P2[1] Vss M,I2C SCL,P1[7] M, I2C SDA, P1[5] M,P1[3] M,I2C SCL,P1[1] Vss 1 2 3 4 5 6 7 8 9 10 11 12 13 14 SSOP 28 27 26 25 24 23 22 21 20 19 18 17 16 15 Vdd P0[6], A, I, M P0[4], A, I, M P0[2], A, I, M P0[0], A, I, M P2[6],M P2[4],M P2[2],M P2[0],M XRES P1[6],M P1[4], EXTCLK, M P1[2],M P1[0],I2C SDA, M 3. 28- (SSOP ) 1 IO I, M P0[7] 2 IO I, M P0[5] 3 IO I, M P0[3] 4 IO I, M P0[1] 5 IO M P2[7] 6 IO M P2[5] 7 IO I, M P2[3] 8 IO I, M P2[1] 9 Vss 10 IO M P1[7] I2C SCL 11 IO M P1[5] I2C SDA 12 IO M P1[3] 13 IO M P1[1] I2C (SCL), ISSP-SCLK [1]. 14 Vss 15 IO M P1[0] I2C (SDA), ISSP-SDATA [1]. 16 IO M P1[2] 17 IO M P1[4] (EXTCLK). 18 IO M P1[6] 19 XRES 20 IO I, M P2[0] 21 IO I, M P2[2] 22 IO M P2[4] 23 IO M P2[6] 24 IO I, M P0[0] 25 IO I, M P0[2] 26 IO I, M P0[4] 27 IO I, M P0[6] 28 Power Vdd A =, I =, O =, OH = 5 001-50521 ** 9 34

32-7. CY8C20434 32-Pin PSoC Vss P0[3], AI P0[5], AI P0[7], AI Vdd P0[6], AI P0[4], AI P0[2], AI AI, P0[1] AI, P2[7] AI, P2[5] AI, P2[3] AI, P2[1] AI, P3[3] AI, P3[1] SPI SS, P1[7] AI, I2C SCL 1 2 3 4 5 6 7 8 32 31 30 29 28 27 26 25 9 QFN (Top View) 10 11 12 13 14 15 16 24 23 22 21 20 19 18 17 P0[0], AI P2[6], AI P2[4], AI P2[2], AI P2[0], AI P3[2], AI P3[0], AI XRES AI, I2C SDA, SPI MISO, P1[5] AI, SPI CLK, P1[3] AI, CLK*, I2C SCL, SPI MOSI, P1[1] Vss AI, DATA*, I2C SDA, P1[0] AI, P1[2] AI, EXTCLK, P1[4] AI, P1[6] 4. 32- (QFN [2] ) 1 IO I P0[1] 2 IO I P2[7] 3 IO I P2[5] 4 IO I P2[3] 5 IO I P2[1] 6 IO I P3[3] 7 IO I P3[1] 8 IOH I P1[7] I 2 C SCL, SPI SS. 9 IOH I P1[5] I 2 C SDA, SPI MISO. 10 IOH I P1[3] SPI CLK. 11 IOH I P1[1] CLK [1], I 2 C SCL, SPI MOSI. 12 Power Vss 13 IOH I P1[0] DATA [1], I 2 C SDA. 14 IOH I P1[2] 15 IOH I P1[4] (EXTCLK). 16 IOH I P1[6] 17 Input XRES 18 IO I P3[0] 19 IO I P3[2] 20 IO I P2[0] 21 IO I P2[2] 22 IO I P2[4] 23 IO I P2[6] 24 IO I P0[0] 25 IO I P0[2] 26 IO I P0[4] 27 IO I P0[6] 001-50521 ** 10 34

4. 32- (QFN [2] ) (continued) 28 Vdd 29 IO I P0[7] 30 IO I P0[5] 31 IO I P0[3] 32 Vss CP Vss A =, I =, O =, OH = 5 48- OCD 48 QFN CY8C20000 OCD PSoC : 8. CY8C20000 OCD PSoC NC Vss P0[3], AI P0[5], AI P0[7], AI OCDE OCDO Vdd P0[6], AI NC NC NC NC AI, P0[1] AI, P2[7] AI, P2[5] AI, P2[3] AI, P2[1] AI, P3[3] AI, P3[1] AI, I2C SCL, SPI SS, P1[7] AI, I2C SDA, SPI MISO, P1[5] NC NC 1 2 48 47 3 4 5 6 7 8 9 10 11 12 13 14 46 45 44 15 16 43 OCD QFN 42 41 40 (Top View) 17 18 19 20 21 39 38 37 22 23 24 36 35 34 33 32 31 30 29 28 27 26 25 P0[4], AI P0[2], AI P0[0], AI P2[6], AI P2[4], AI P2[2], AI P2[0], AI P3[2], AI P3[0], AI XRES P1[6], AI P1[4], EXTCLK, AI NC NC AI, SPI CLK, P1[3] AI, CLK*, I2C SCL, SPI MOSI, P1[1] Vss CCLK HCLK AI, DATA*, I2C SDA, P1[0] AI, P1[2] NC NC NC 5. 48 OCD (QFN [2] ) 1 NC 2 IO I P0[1] 3 IO I P2[7] 4 IO I P2[5] 5 IO I P2[3] 6 IO I P2[1] 7 IO I P3[3] 8 IO I P3[1] 9 IOH I P1[7] I 2 C SCL, SPI SS. 10 IOH I P1[5] I 2 C SDA, SPI MISO. 001-50521 ** 11 34

5. 48 OCD (QFN [2] ) (continued) 11 IO I P0[1] 12 NC 13 NC 14 NC 15 NC 16 IOH I P1[3] SPI CLK. 17 IOH I P1[1] CLK [1], I 2 C SCL, SPI MOSI. 18 Vss 19 CCLK OCD CPU 20 HCLK OCD 21 IOH I P1[0] DATA [1], I 2 C SDA. 22 IOH I P1[2] 23 NC 24 NC 25 NC 26 IOH I P1[4] (EXTCLK). 27 IOH I P1[6] 28 XRES 29 IO I P3[0] 30 IO I P3[2] 31 IO I P2[0] 32 IO I P2[2] 33 IO I P2[4] 34 IO I P2[6] 35 IO I P0[0] 36 IO I P0[2] 37 NC 38 NC 39 NC 40 IO I P0[6] 41 Vdd 42 OCDO OCD 43 OCDE OCD IO 44 IO I P0[7] 45 IO I P0[5] 46 IO I P0[3] 47 Vss 48 NC CP Power Vss A =, I =, O =, OH = 5 001-50521 ** 12 34

CY8C20534, CY8C20434 CY8C20234 CY8C20334 CY8C20434 PSoC http://www.cypress.com/psoc. -40 o C T A 85 o C and T J 100 o C. 16 GPIO 5V 3.3V SLIMO IMO 9. CPU IMO 5.25 4.75 5.25 4.75 SLIMO Mode=1 SLIMO Mode=1 SLIMO Mode=0 Vdd Voltage 3.00 2.70 2.40 Valid Operating Region Vdd Voltage 3.60 3.00 2.70 2.40 SLIMO SLIMO Mode=1 Mode=0 SLIMO Mode=1 SLIMO Mode=0 750 khz 3 MHz 6 MHz 12 MHz CPU Frequency 750 khz 3 MHz 6 MHz 12 MHz IMO Frequency 6" " 6. o C µw db ma ff ms Hz mv KB 1024 na Kbit 1024 ns khz nv kω W MHz pa MΩ pf µa pp µf ppm 100 µh ps µs sps µv s 1 µvrms V 001-50521 ** 13 34

7. 25oC 65oC T STG -55 25 +100 o C +25oC T A -40 +85 o C Vdd Vdd Vss -0.5 +6.0 V V IO Vss - Vdd + V 0.5 0.5 V IOZ V Vss - 0.5 Vdd + 0.5 I MIO -25 +50 ma ESD 2000 V ESD. LU 200 ma 8. " T A -40 +85 o C T J -40 +100 o C 17 " 001-50521 ** 14 34

4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V. 9. Vdd 2.40 5.25 V 17 14."POR LVD " I DD12, IMO = 12 MHz 1.5 2.5 ma Vdd = 3.0V, T A = 25 o C, CPU = 12 MHz. I DD6 IMO = 6 MHz 1 1.5 ma Vdd = 3.0V, T A = 25 o C, CPU = 6 MHz. I SB27 POR LVD 2.6 4. µa Vdd = 2.55V, 0 o C T A 40 o C. WDT I SB POR LVD 2.8 5 µa Vdd = 3.3V, -40 o C T A 85 o C. WDT IO 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 10. GPIO 5V 3.3V R PU 4 5.6 8 kω V OH1 Vdd - V IOH < 10 µa, Vdd > 3.0V, IO 0 2 3 0.2 20 ma V OH2 0 2 3 Vdd - 0.9 V IOH = 1 ma, Vdd > 3.0V, IO 20 ma V OH3 Vdd - V IOH < 10 µa, Vdd > 3.0V, IO 1 0.2 10 ma. V OH4 Vdd - V IOH = 5 ma, Vdd > 3.0V, IO 1 0.9 20 ma V OH5 2.75 3.0 3.2 V IOH < 10 µa, Vdd > 3.1V, 4 IO 1 5 ma V OH6 2.2 V IOH = 5 ma, Vdd > 3.1V, IO 1 20 ma V OH7 2.1 2.4 2.5 V IOH < 10 µa, Vdd > 3.0V, IO 1 2.4 20 ma V OH8 2.0 V IOH < 200 µa, Vdd > 3.0V, IO 1 2.4 20 ma V OH9 1.6 1.8 1.95 V IOH < 10 µa. 1 1.8 3.0V Vdd 3.6V. 0 o C TA 85 o C. IO 20 ma 001-50521 ** 15 34

10. GPIO 5V 3.3V V OH10 1.5 V IOH < 100 µa. 1 1.8 3.0V Vdd 3.6V. 0 o C TA 85 o C. IO 20 ma. V OL 0.75 V IOL = 20 ma, Vdd > 3.0V, 60 ma P0[2] P1[4] 60 P0[3] P1[5] V IL 0.8 V 3.6V Vdd 5.25V. V IH 2.0 V 3.6V Vdd 5.25V. V H 140 mv I IL 1 na 1µ A C IN 0.5 1.7 5 pf = 25oC C OUT 0.5 1.7 5 pf = 25oC 11. GPIO 2.7V P1[4] R PU 4 5.6 8 kω V OH1 Vdd - V IOH < 10 µa, IO 0 2 3 0.2 10 ma V OH2 0 2 3 Vdd - 0.5 V IOH = 2 ma, IO 10 ma V OL 0.75 V IOL = 10 ma, 30 ma P0[2] 30 P0[3] P1[5]. V OLP1, 1 0.4 V IOL=5 ma 50 ma P0[2] P3[4] 50 P0[3] P2[5] 2.4V Vdd < 3.6V. V IL 0.75 V 2.4V Vdd < 3.6V. V IH1 1.4 V 2.4V Vdd < 2.7V. V IH2 1.6 V 2.7V Vdd < 3.6V. V H 60 mv I IL 1 na 1 µa. C IN 0.5 1.7 5 pf = 25 o C. C OUT 0.5 1.7 5 pf = 25 o C. 001-50521 ** 16 34

4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 12. R SW 400 W Vdd 2.7V 800 W 2.4V Vdd 2.7V 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 13. V REFLPC LPC 0.2 Vdd 1 V I SLPC LPC 10 40 µa V OSLPC LPC 2.5 30 mv POR LVD 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 14. POR LVD V PPOR0 V PPOR1 V PPOR2 V LVD0 V LVD1 V LVD2 V LVD3 V LVD4 V LVD5 V LVD6 V LVD7 PPOR Vdd PORLEV[1:0] = 00b PORLEV[1:0] = 01b PORLEV[1:0] = 10b LVD Vdd VM[2:0] = 000b VM[2:0] = 001b VM[2:0] = 010b VM[2:0] = 011b VM[2:0] = 100b VM[2:0] = 101b VM[2:0] = 110b VM[2:0] = 111b 2.39 2.54 2.75 2.85 2.96 4.52 2.36 2.60 2.82 2.45 2.71 2.92 3.02 3.13 4.73 2.40 2.65 2.95 2.51 [3] 2.78 [4] 2.99 [5] 3.09 3.20 4.83 V V V V V V V V V V V Vdd 2.5V XRES 3. V PPOR (PORLEV = 00) 50 mv 4. V PPOR (PORLEV = 01) 50 mv 5. V PPOR (PORLEV = 10) 50 mv 001-50521 ** 17 34

4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 15. Vdd IWRITE 2.70 V I DDP 5 25 ma V ILP 0.8 V V IHP 2.2 V I ILP Vilp 0.2 ma P1[0] P1[1] I IHP Vihp 1.5 ma P1[0] P1[1] V OLV Vss + V 0.75 V OHV Vdd Vdd V 1.0 Flash ENPB 50,000 / Flash ENT [6] 1,800,0 / 00 Flash DR 10 6. 36 x 50000 36x1 50000 36x2 25000 36x4 12500 36x50000 50000 001-50521 ** 18 34

4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 16. GPIO 5V 3.3V F CPU1 CPU 3.3V 0.75 12.6 MHz SLIMO =0 12 MHz F 32K1 15 32 64 khz F IMO12 12 MHz 11.4 12 12.6 MHz 3.3V [7] 2-1b SLIMO = 0 F IMO6 6 MHz 5.70 6.0 6.30 MHz 3.3V 2-1b SLIMO = 1 DC IMO IMO 40 50 60 % T RAMP 0 µs T XRST 10 µs 17. 2.7V F CPU1 CPU 2.7V 0.75 3.25 MHz F 32K1 8 32 96 khz F IMO12 12 MHz 11.0 12 12.9 MHz 3.3V [7] 2-1b SLIMO = 0 F IMO6 6 MHz 5.60 6.0 6.40 MHz 2.7V 2-1b SLIMO = 1 DC IMO IMO 40 50 60 % T RAMP 0 µs T XRST 10 µs 18. 2.7V F CPU1 CPU 2.7V 0.75 6.3 MHz F 32K1 8 32 96 khz F IMO12 12 MHz 11.0 12 12.9 MHz 2.7V [7] 2-1b SLIMO = 0. 7. 0 70 C Vdd=3.3V 001-50521 ** 19 34

18. 2.7V F IMO6 6 MHz 5.60 6.0 6.40 MHz 2.7V 2-1b SLIMO = 1 DC IMO IMO 40 50 60 % T RAMP 0 µs T XRST 10 µs IO 19. 20 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 19. GPIO 5V 3.3V F GPIO GPIO 0 6 MHz 1 TRise023 Cload = 50 pf 15 80 ns Vdd = 3.0 3.6V 4.75V 0 2 3 5.25V 10% -90% TRise1 Cload = 50 pf 10 50 ns Vdd = 3.0 3.6V, 10% - 90% 1 TFall Cload = 50pF 10 50 ns Vdd = 3.0 3.6V 4.75V 5.25V, 10% - 90% 20. GPIO 2.7V F GPIO GPIO 0 1.5 MHz 1 TRise023 Cload = 50 pf 15 100 ns Vdd = 2.4 3.0V, 10% - 90% 0 2 3 TRise1 Cload = 50 pf 10 70 ns Vdd = 2.4 3.0V, 10% - 90% 1 TFall Cload = 50pF 10 70 ns Vdd = 2.4 3.0V, 10% - 90% 90% 10. GPIO GPIO Pin Output Voltage 10% TRise023 TRise1 TFall 001-50521 ** 20 34

4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 21. T COMP 50 mv 100 200 ns ns Vdd 3.0V. 2.4V < Vcc < 3.0V. 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 22. F SW 3.17 MHz 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 23. T RLPC LPC 50 µs 50 mv V REFLPC. 24. 25. 26. 27 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 24. 5V F OSCEXT 0.750 12.6 MHz 38 5300 ns 38 ns IMO 150 µs 001-50521 ** 21 34

25. 3.3V F OSCEXT CPU 1 0.750 12.6 MHz 3.3V CPU 12 MHz CPU 1 CPU 1 41.7 5300 ns CPU 1 41.7 ns IMO 150 µs 26. 2.7V ( ) 50% F OSCEXT CPU 1 0.750 3.08 0 MHz 2.7V CPU 3 MHz CPU 1 F OSCEXT CPU 2 0.15 6.35 MHz 3 MHz CPU 2 CPU CPU 1 160 5300 ns CPU 1 160 ns IMO 150 µs 27. 2.7V ( ) 50% F OSCEXT CPU 1 0.750 6.3 0 MHz 2.7V CPU 6MHz CPU 1 F OSCEXT CPU 2 0.15 12.6 MHz 6 MHz CPU 2 CPU CPU 1 160 5300 ns CPU 1 160 ns IMO 150 µs 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 28. T RSCLK SCLK 1 20 ns T FSCLK SCLK 1 20 ns T SSCLK SCLK 40 ns T HSCLK SCLK 40 ns 001-50521 ** 22 34

28. F SCLK SCLK 0 8 MHz T ERASEB 15 ms T WRITE 30 ms T DSCLK SCLK 45 ns 3.6 < Vdd T DSCLK3 SCLK 50 ns 3.0 Vdd 3.6 T DSCLK2 SCLK 70 ns 2.4 Vdd 3.0 SPI 29. 30 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 29. SPI 5V 3.3V F SPIM 6.3 MHz F SPIS 2.05 MHz T SS SS_ Negated 50 ns 30. SPI 2.7V F SPIM 3.15 MHz F SPIS 1.025 MHz T SS SS_ Negated 50 ns 001-50521 ** 23 34

I 2 C 31. 32 4.75V 5.25V -40 C T A 85 C, 3.0V 3.6V -40 C T A 85 C, 2.4V to 3.0V -40 C T A 85 C, 25 C 5V 3.3V 2.7V 31. Vdd 3.0V I2C SDA SCL F SCL I 2 C SCL 0 100 0 400 khz T HDSTA I 2 C 4.0 0.6 µs T LOW I 2 C SCL 4.7 1.3 µs T HIGH I 2 C SCL 4.0 0.6 µs T SUSTA I 2 C 4.7 0.6 µs T HDDAT I 2 C 0 0 µs T SUDAT I 2 C 250 100 [8] ns T SUSTO I 2 C 4.0 0.6 µs T BUF I 2 C 4.7 1.3 µs T SP I 2 C 0 50 ns 8. I 2 C I 2 C t SUDAT 250 ns SCL SCL SCL SDA trmax + tsu;dat = 1000 + 250 = 1250 ns ( I 2 C ). 001-50521 ** 24 34

32. 2.7V I 2 C SDA SCL ( ) F SCL I 2 C SCL 0 100 khz T HDSTA I 2 C 4.0 µs T LOW I 2 C SCL 4.7 µs T HIGH I 2 C SCL 4.0 µs T SUSTA I 2 C 4.7 µs T HDDAT I 2 C 0 µs T SUDAT I 2 C 250 ns T SUSTO I 2 C 4.0 µs T BUF I 2 C 4.7 µs T SP I 2 C ns 11. I 2 C Bus / SDA T LOWI2C T SUDATI2C T HDSTAI2C T SPI2C T BUFI2C SCL T HDSTAI2C T HDDATI2C T HIGHI2C T SUSTAI2C T SUSTOI2C S Sr P S 001-50521 ** 25 34

CY8C20234, CY8C20334, CY8C20434, and CY8C20534 PSoC http://www.cypress.com/design/mr10161. " " 12. 16 3x3 mm x 0.6 QFN 001-09116 *D 001-50521 ** 26 34

13. 24- (4x4 x 0.6 mm) QFN : 0.024 001-13937 *B 001-13937 *A 14. 28- (210- ) SSOP 51-85079 *C 001-50521 ** 27 34

15. 32- (5x5 mm 0.60 ) QFN 0.0354 001-06392 *A 001-50521 ** 28 34

16. 48- (7x7 mm) QFN 0.13 001-12919 *A QFN http://www.amkor.com/products/notes_papers/mlfappnote.pdf. 24-, 32-, 48- QFN PSoC 001-50521 ** 29 34

33. LED PSoC Express http://www.cypress.com/psocexpress. θ [9] JA 16 QFN 46 o C/W PSoC 24 QFN [10] 25 o C/W PSoC 28 SSOP [10] 96 o C/W 32 QFN [10] 27 o C/W PSoC Designer PSoC Express PSoC Programmer software is compatible 48 QFN [10] 28 o C/W with both PSoC ICE-Cube In-Circuit Emulator and PSoC MiniProg.PSoC PSoC ICE-Cube PSoC MiniProg PSoC t http://www.cypress.com/psocprogrammer. CY3202-C imagecraft C 34. CY3202 PSoC Designer [11] imagecraft C 16 QFN 240 o C 260 o C http://www.cypress.com, PSoC 24 QFN 240 o C 260 o C 28 SSOP 240 o C 260 o C 32 QFN 240 o C 260 o C 48 QFN 240 o C 260 o C. CY3215-DK CY3215-DK PSoC Designer PSoC Designer PSoC Designer PSoc Designer PSoC PSoC Designer CD PsoC 5 ICE-Cube PSoC PSoC Designer CY8C29x66 ICE Flex-Pod http://www.cypress.com " " >> " 5 " Mini-Eval 110 ~ 240V PSoC Express imagecraft C PSoC PSoC Express ISSP PSoC USB 2.0 Blue 5 2 Y8C29466-24PXI 28-PDIP 9. T J = T A + Power x θ JA. 10. ** 11. 220 5oC 245 5oC 001-50521 ** 30 34

CY3210-ExpressDK PSoC Express CY3210-ExpressDK PSoC Express CY3210-PSoCEval1 ICE-Cube MiniProg1 LCD I 2 C LED PSoC Express CD Express Development Board MiniProg Express 28 CY8C29466-24PXI PDIP PSoC 2 2 Proto PSoC Designer CD MiniProg MiniEval USB 2.0 CY3214-PSoCEvalUSB USB 2.0 DB9 CY3214-PSoCEvalUSB 110 ~ 240V CY8C24794-24LFXI PSoC USB 2 CY8C24423A-24PXI 28-PDIP LCD LED 2 CY8C27443-24PXI 28-PDIP 1 2 Y8C29466-24PXI 28-PDIP PSoCEvalUSB LCD MiniProg Mini USB PSoC Designer CD CY3210-MiniProg1 CY3210-MiniProg1 MiniProg1 PSoC MiniProg USB 2.0 PC MiniProg MiniEval 28 CY8C29466-24PXI PDIP PSoC 28 CY8C27443-24PXI PDIP PSoC PSoC Designer CD USB 2.0 CY3210-PSoCEval1 LCD CY3216 CY3216 MiniProg1 3 3 MiniProg PSoC Designer CD USB 2.0 001-50521 ** 31 34

CY3207ISSP ISSP CY3207ISSP MiniProg. CY3207ISSP PSoC CY3207 PSoC ISSP CD 110 ~ 240V USB 2.0 35. Flex-Pod [13] [14] CY8C20234-12LKXI 16 SOIC - CY3250-16QFN-FK CY3210-0X34 - CY8C20334-12LQXI 24 QFN CY3250-20334QFN CY3250-24QFN-FK CY3210-0X34 AS-24-28-01ML-6 CY8C20534-12PVXI 28 SSOP - CY3250-28SSOP-FK CY3210-0X34 - CY8C20434-12LKXI 32 QFN CY3250-20434QFN CY3250-32QFN-FK CY3210-0X34 AS-32-28-03ML-6 3 PSoC OCD PSoC PSoC " http://www.cypress.com " >> " - PSoC " http://www.cypress.com/design/an2323. 12. Flex-Pod 2 Flex-pod Flex-pod 13. 14. DIP DIP http://www.emulation.com. 001-50521 ** 32 34

CY8C20234 CY8C20334 CY8C20434. CY8C20534.PSoC 36. PSoC SRAM CapSense XRES [15] 16- (3x3 mm 0.60 CY8C20234-12LKXI 8K 512 0 1 13 13 [15] 0 Yes ) QFN 16- (3x3 mm 0.60 CY8C20234-12LKXIT 8K 512 0 1 13 13 [15] 0 Yes ) QFN ( / ) 24- (4x4 mm 0.60 CY8C20334-12LQXI 8K 512 0 1 20 20 [15] 0 Yes ) QFN 24- (4x4 mm 0.60 CY8C20334-12LQXIT 8K 512 0 1 20 20 [15] 0 Yes ) QFN ( / ) 28- (210- ) SSOP CY8C20534-PVXI 8K 512 0 1 24 24 0 Yes 28- (210- ) CY8C20534-PVXIT 8K 512 0 1 24 24 0 Yes SSOP( / ) 32- (5x5 mm 0.60 CY8C20434-12LKXI 8K 512 0 1 28 28 [15] 0 Yes ) QFN 32- (5x5 mm 0.60 CY8C20434-12LKXIT 8K 512 0 1 28 28 [15] 0 Yes ) QFN ( / ) 48- OCD QFN [16] CY8C20000-12LFXI 8K 512 0 1 28 28 [15] 0 Yes CY -8---C-20--xxx---12--xx 17. :.. : PX = PDIP. C= l SX = SOIC... I= PVX = SSOP... E = LFX = QFN LKX/LQX = QFN AX = TQFP 12 MHz C = CMOS 8 = Cyrpress PSoC CY = 15. IO 16. 001-50521 ** 33 34

: CY8C20534,CY8C20434,CY8C20334,CY8C20234 PSoC : 001-50521 ECN ** 2616051 HJIA SPEC 001-05356 2005-2008 / / 001-50521 **... 2008 6 13... 34 34