Freescale Semiconductor Advance Information Document Number: MC33660 Rev 5.0, 10/2013 ISO K Line Serial Link Interface The 33660 is a serial link bus interface device designed to provide bi-directional half-duplex communication interfacing in automotive diagnostic applications. It is designed to interface between the vehicle’s on-board microcontroller, and systems off-board the vehicle via the special ISO K line. The 33660 is designed to meet the Diagnostic Systems ISO9141 specification. The device’s K line bus driver’s output is fully protected against bus shorts and overtemperature conditions. The 33660 derives its robustness to temperature and voltage extremes by being built on a SMARTMOS process, incorporating CMOS logic, bipolar/MOS analog circuitry, and DMOS power FETs. Although the 33660 was principally designed for automotive applications, it is suited for other serial communication applications. It is parametrically specified over an ambient temperature range of -40 ºC ≤ TA ≤ 125 ºC and 8.0 V ≤ VBB ≤ 18 V supply. The economical SO-8 surface-mount plastic package makes the 33660 very cost effective. ISO9141 PHYSICAL INTERFACE EF SUFFIX (PB-FREE) 98ASB42564B 8-PIN SOICN ORDERING INFORMATION Features • • • • • • • • • • 33660 Operates over wide supply voltage of 8.0 to 18 V Operating temperature of -40 to 125 °C Interfaces directly to standard CMOS microprocessors ISO K line pin protected against shorts to battery Thermal shutdown with hysteresis ISO K line pin capable of high currents ISO K line can be driven with up to 10 nF of parasitic capacitance 8.0 kV ESD protection attainable with few additional components Standby mode: no VBAT current drain with VDD at 5.0 V Low current drain during operation with VDD at 5.0 V Device (For tape and reel orders, add an R2 suffix) Temperature Range (TA) Package -40 to 125 °C 8-SOICN MC33660EF MC33660BEF +VBAT VDD 33660 VDD VDD VBB CEN RX TX ISO MCU Dx SCIRxD SCITxD ISO K-LINE TXD GND Figure 1. 33660 Simplified Application Diagram * This document contains certain information on a new product. Specifications and information herein are subject to change without notice. © Freescale Semiconductor, Inc., 2011-2013. All rights reserved. RXD DEVICE VARIATIONS DEVICE VARIATIONS Table 1. Device Variations Parameter VBB Load Dump Peak Voltage (in accordance with ISO 7637-2 & ISO 7637-3) Module Level ESD (Air Discharge, Powered) (6) Symbol Condition 33660 33660B (1) VBB(5a) Pulse 5a 470 ohm series resistor and 100 nF capacitor to GND on VBB – 82 V VBB(5b) Pulse 5b 470 ohm series resistor and 100 nF capacitor to GND on VBB 45 V 45 V VESD4 33 V zener diode and 470 pF capacitor to GND on ISO – ±25000 V Notes 1. Recommended for all new designs 33660 2 Analog Integrated Circuit Device Data Freescale Semiconductor INTERNAL BLOCK DIAGRAM INTERNAL BLOCK DIAGRAM VBB 3.0 kΩ 60 V 600 kΩ 20 V * Only applies to 33660B CEN 10 V 125 kΩ RX RHYS 10 V 55 kΩ 550 kΩ ISO 45 V Master Bias 110 kΩ 55 V Thermal Shutdown VDD 2.0 kΩ 10 V 125 kΩ TX 10 V GND Figure 2. 33660 Simplified Internal Block Diagram 33660 Analog Integrated Circuit Device Data Freescale Semiconductor 3 PIN CONNECTIONS PIN CONNECTIONS VBB 11 88 CEN NC 22 77 VDD GND 33 66 RX ISO 44 55 TX Figure 3. 33660 Pin Connections Table 2. 33660 Pin Definitions Pin Number Pin Name 1 VBB Battery power through external resistor and diode. Definition 2 NC Not to be connected. (2) 3 GND Common signal and power return. 4 ISO Bus connection. 5 TX Logic level input for data to be transmitted on the bus. 6 RX Logic output of data received on the bus. 7 VDD Logic power source input. 8 CEN Chip enable. Logic “1” for active state. Logic “0” for sleep state. Notes 2. NC pins should not have any connections made to them. NC pins are not guaranteed to be open circuits. 33660 4 Analog Integrated Circuit Device Data Freescale Semiconductor ELECTRICAL CHARACTERISTICS MAXIMUM RATINGS ELECTRICAL CHARACTERISTICS MAXIMUM RATINGS Table 3. Maximum Ratings All voltages are with respect to ground unless otherwise noted. Exceeding these ratings may cause a malfunction or permanent damage to the device. Rating VDD DC Supply Voltage Symbol Value Unit VDD -0.3 to 7.0 V VBB Load Dump Peak Voltage (in accordance with ISO 7637-2 & ISO 7637-3) V Pulse 5a - 33660B only VBB(5a) 82 Pulse 5b VBB(5b) 45 VISO 40 Human Body Model (5) VESD1 ±2000 Machine Model (5) VESD2 ISO Pin Load Dump Peak Voltage ESD Voltage (3) (4) V ±150 33660 ±200 33660B Charge Device Model V (5) Corner Pins VESD3-1 ±750 All other Pins VESD3-2 ±500 VESD4 ±25000 ISO Clamp Energy (7) ECLAMP 10 mJ Storage Temperature TSTG -55 to +150 °C Operating Case Temperature TC -40 to +125 °C Operating Junction Temperature TJ -40 to +150 °C PD 100 mW TPPRT Note 9. °C RθJA 150 °C/W Module Level ESD (Air Discharge, Powered) (6) 33660B only ISO pin with 33 V zener diode and 470 pF capacitor to GND - Power Dissipation TA = 25 °C Peak Package Reflow Temperature During Reflow Thermal Resistance: Junction-to-Ambient (8), (9) Notes 3. Device will survive double battery jump start conditions in typical applications for 10 minutes duration, but is not guaranteed to remain within specified parametric limits during this duration. 4. ESD data available upon request. 5. ESD1 testing is performed in accordance with the Human Body Model (CZAP = 100 pF, RZAP = 1500 Ω), ESD2 testing is performed in accordance with the Machine Model (CZAP = 200 pF, RZAP = 0 Ω), ESD3 testing is performed in accordance with the Charge Device Model (CZAP = 4.0 pF). 6. 7. 8. 9. ESD4 testing is performed in accordance with ISO 10605 ESD model (C = 330 pF, R = 2.0 kΩ). ESD discharges start at ±5.0 kV and go up to ±25 kV in increments of 5.0 kV. There are two positions for discharges: 8.0 cm cable from ISO connector, 85 cm cable from ISO connector. There are 10 ESD discharges per voltage at each cable position at a minimum of 1.0 s intervals. Remaining charge is not bled off after every discharge. Nonrepetitive clamping capability at 25 °C. Pin soldering temperature limit is for 10 seconds maximum duration. Not designed for immersion soldering. Exceeding these limits may cause malfunction or permanent damage to the device. Freescale’s Package Reflow capability meets Pb-free requirements for JEDEC standard J-STD-020C. For Peak Package Reflow Temperature and Moisture Sensitivity Levels (MSL), Go to www.freescale.com, search by part number [e.g. remove prefixes/suffixes and enter the core ID to view all orderable parts. (i.e. MC33xxxD enter 33xxx), and review parametrics. 33660 Analog Integrated Circuit Device Data Freescale Semiconductor 5 ELECTRICAL CHARACTERISTICS STATIC ELECTRICAL CHARACTERISTICS STATIC ELECTRICAL CHARACTERISTICS Table 4. Static Electrical Characteristics Characteristics noted under conditions of 4.75 V ≤ VDD ≤ 5.25 V, 8.0 V ≤ VBB ≤ 18 V, -40 °C ≤ TC ≤ 125 °C, unless otherwise noted. Characteristic Symbol Min Typ Max Unit POWER AND CONTROL VDD Sleep State Current mA IDD(SS) Tx = 0.8 VDD, CEN = 0.3 VDD VDD Quiescent Operating Current – – 0.1 – – 1.0 – – 50 – – 1.0 mA IDD(Q) Tx = 0.2 VDD, CEN = 0.7 VDD IBB(SS) VBB Sleep State Current µA VBB = 16 V, Tx = 0.8 VDD, CEN = 0.3 VDD VBB Quiescent Operating Current IBB(Q) mA TX = 0.2 VDD, CEN = 0.7 VDD Chip Enable V (10) VIH(CEN) 0.7 VDD – – Input Low Voltage Threshold (11) VIL(CEN) – – 0.3 VDD IPD(CEN) 2.0 – 40 – – 0.3 x VDD 0.7 x VDD – – -40 – -2.0 – – 0.2 VDD 0.8 VDD – – 150 170 – Input High Voltage Threshold Chip Enable Pull-down Current (12) TX Input Low Voltage Threshold RISO = 510 Ω V (13) TX Input High Voltage Threshold RISO = 510 Ω VIL(TX) V VIH(TX) (14) TX Pull-up Current (15) IPU(TX) RX Output Low Voltage Threshold VOL(RX) Thermal Shutdown (16) V VOH(RX) RISO = 510 Ω, TX = 0.8 VDD, RX Sourcing 250 µA µA V RISO = 510 Ω, TX = 0.2 VDD, Rx Sinking 1.0 mA RX Output High Voltage Threshold µA TLIM °C Notes 10. When IBB transitions to >100 µA. 11. When IBB transitions to <100 µA. 12. Enable pin has an internal current pull-down. Pull-down current is measured with CEN pin at 0.3 VDD. 13. Measured by ramping TX down from 0.8 VDD and noting TX value at which ISO falls below 0.2 VBB. 14. Measured by ramping TX up from 0.2 VDD and noting the value at which ISO rises above 0.9 VBB. 15. Tx pin has internal current pull-up. Pull-up current is measured with TX pin at 0.7 VDD. 16. Thermal Shutdown performance (TLIM) is guaranteed by design, but not production tested. 33660 6 Analog Integrated Circuit Device Data Freescale Semiconductor ELECTRICAL CHARACTERISTICS STATIC ELECTRICAL CHARACTERISTICS Table 3. Static Electrical Characteristics (Continued) Characteristics noted under conditions of 4.75 V ≤ VDD ≤ 5.25 V, 8.0 V ≤ VBB ≤ 18 V, -40°C ≤ TC ≤ 125°C, unless otherwise noted. Characteristic Symbol Min Typ Max Unit ISO I/O Input Low Voltage Threshold VIL(ISO) RISO = 510 Ω, TX = 0.8 VDD Input High Voltage Threshold Input Voltage Hysteresis VHYS(ISO) Internal Pull-up Current IPU(ISO) RISO = ∞ Ω, TX = 0.8 VDD, VISO = 9.0 V, VBB = 18 V RISO = ∞ Ω, TX = 0.8 VDD 0.4 x VBB 0.7 x VBB – – 0.05 x VBB – 0.1 x VBB -5.0 – -140 50 – 200 – – 0.1 x VBB V V µA mA VOL(ISO) RISO = 510 Ω, TX = 0.2 VDD Output High Voltage – ISC(ISO) RISO = 0 Ω, TX = 0.4 VDD, VISO = VBB Output Low Voltage – VIH(ISO) RISO = 510 Ω, TX = 0.8 VDD Short-circuit Current Limit V V V VOH(ISO) 0.95 x VBB – – 33660 Analog Integrated Circuit Device Data Freescale Semiconductor 7 ELECTRICAL CHARACTERISTICS DYNAMIC ELECTRICAL CHARACTERISTICS DYNAMIC ELECTRICAL CHARACTERISTICS Table 4. Dynamic Electrical Characteristics Characteristics noted under conditions of 4.75 V ≤ VDD ≤ 5.25 V, 8.0 V ≤ VBB ≤ 18 V, -40 °C ≤ TC ≤ 125 °C, unless otherwise noted. Characteristic Fall Time (17) Symbol High to Low: RISO = 510 Ω, CISO = 500 pF (19) Low to High: RISO = 510 Ω, CISO = 500 pF (20) Typ Max – – 2.0 – – 2.0 – – 2.0 tFALL(ISO) RISO = 510 Ω to VBB, CISO = 10 nF to Ground ISO Propagation Delay (18) Min Unit µs µs tPD(ISO) Notes 17. Time required ISO voltage to transition from 0.8 VBB to 0.2 VBB. 18. Changes in the value of CISO affect the rise and fall time but have minimal effect on Propagation Delay. 19. Step TX voltage from 0.8 VDD to 0.2 VDD. Time measured from VIH(Tx) until VISO reaches 0.3 VBB. 20. Step TX voltage from 0.2 VDD to 0.8 VDD. Time measured from VIL(Tx) until VISO reaches 0.7 VBB. 33660 8 Analog Integrated Circuit Device Data Freescale Semiconductor ELECTRICAL CHARACTERISTICS ELECTRICAL PERFORMANCE CURVES 0.6 VIH; VDD = 5.25 V, VBB = 18 V VIH; VDD = 4.75 V, VBB = 8.0 V 0.575 0.55 0.525 0.5 0.475 -50 VIL; VDD = 5.25 V, VBB = 18 V VIL; VDD = 4.75 V, VBB = 8.0 V 0 50 100 150 TA, AMBIENT TEMPERATURE (°C) VOL and VOH, ISO OUTPUT (RATIO) VIL and VIH, INPUT THRESHOLD (RATIO) ELECTRICAL PERFORMANCE CURVES 1.2 0.8 0.4 0.2 VOL 0 -50 VDD = 5.25 V, VBB = 18 V 0.85 0.8 0.75 VDD = 4.75 V, VBB = 8.0 V 0.7 0.65 -50 0 50 100 TA, AMBIENT TEMPERATURE (°C) Figure 5. ISO Output/VBB vs. Temperature 150 0 50 100 150 TA, AMBIENT TEMPERATURE (°C) Figure 6. ISO Fall Time vs. Temperature tPD(ISO), PROPAGATION DELAY (µs) tfall(ISO), ISO FALL TIME (µs) 0.9 VDD = 4.75 V, VBB = 8.0 V and VDD = 5.25 V, VBB = 18 V 0.6 Figure 4. ISO Input Threshold/VBB vs. Temperature 0.95 VOH 1.0 0.7 VDD = 5.25 V, VBB = 18 V PdH-L 0.6 VDD = 4.75 V, VBB = 8.0 V 0.5 0.4 0.3 0.2 -50 VDD = 5.25 V, VBB = 18 V PdL-H VDD = 4.75 V, VBB = 8.0 V 0 50 100 150 TA, AMBIENT TEMPERATURE (°C) Figure 7. ISO Propagation Delay vs. Temperature 33660 Analog Integrated Circuit Device Data Freescale Semiconductor 9 TYPICAL APPLICATIONS INTRODUCTION TYPICAL APPLICATIONS INTRODUCTION The 33660 is a serial link bus interface device conforming to the ISO 9141 physical bus specification. The device is designed for automotive environment usage, compliant with On-board Diagnostics (OBD) requirements set forth by the California Air Resources Board (CARB) using the ISO K line. The device does not incorporate an ISO L line. It provides bidirectional half-duplex communications interfacing from a microcontroller to the communication bus. The 33660 incorporates circuitry to interface the digital translations from 5.0 V microcontroller logic levels to battery level logic, and from battery level logic to 5.0 V logic levels. The 33660 is built using Freescale Semiconductor’s SMARTMOS process and is packaged in an 8-pin plastic SOIC. FUNCTIONAL DESCRIPTION The 33660 transforms 5.0 V microcontroller logic signals to battery level logic signals and visa versa. The maximum data rate is set by the rise and fall time. The fall time is set by the output driver. The rise time is set by the bus capacitance and the pull-up resistors on the bus. The fall time of the 33660 allows data rates up to 150 kbps using a 30 percent maximum bit time transition value. The serial link interface will remain fully functional over a battery voltage range of 6.0 to 18 V. The device is parametrically specified over a dynamic VBB voltage range of 8.0 to 18 V. Required input levels from the microcontroller are ratiometric with the VDD voltage normally used to power the microcontroller. This enhances the 33660’s ability to remain in harmony with the RX and TX control input signals of the microcontroller. The RX and TX control inputs are compatible with standard 5.0 V CMOS circuitry. For fault tolerant purposes the TX input from the microcontroller has an internal +VBAT On-Board Diagnostic Link D(1) +VDD = 5.0 V MCU 33660 VBB VCC Dx 1.0 nF passive pull-up to VDD, while the CEN input has an internal passive pull-down to ground. A pull-up to battery is internally provided as well as an active data pull-down. The internal active pull-down is current-limit protected against shorts to battery, and further protected by thermal shutdown. Typical applications have reverse battery protection by the incorporation of an external 510 Ω pull-up resistor and a diode to battery. Reverse battery protection of the device is provided by the use of a reverse battery blocking diode (See “D” in the Typical Application Diagram on page 10). Battery line transient protection of the device is provided for by using a 45 V zener and a 500 Ω resistor connected to the VBB source, as shown in the same diagram. Device ESD protection from the communication lines exiting the module is through the use of the capacitor connected to the VBB device pin, and the capacitor used in conjunction with the 27 V zener connected to the ISO pin. VDD 45 V(2) 500 Ω(2) 10 nF(3) 510 Ω CEN ISO SCIRxD RX SCITxD TX Service Scan Tool or End of Production Line Programming or System Checking 5.0 nF(3) 27 V(3) TxD RxD ISO K Line GND Components necessary for Reverse Battery (1), Overvoltage Transient (2), and 8.0 kV ESD Protection (3) in a metal module case. Figure 8. Typical Application Diagram 33660 10 Analog Integrated Circuit Device Data Freescale Semiconductor PACKAGING PACKAGE DIMENSIONS PACKAGING PACKAGE DIMENSIONS For the most current package revision, visit www.freescale.com and perform a keyword search using the “98A” listed below. EF SUFFIX (PB-FREE) 8-PIN 98ASB42564B REV. V 33660 Analog Integrated Circuit Device Data Freescale Semiconductor 11 PACKAGING PACKAGE DIMENSIONS EF SUFFIX (PB-FREE) 8-PIN 98ASB42564B REV. V 33660 12 Analog Integrated Circuit Device Data Freescale Semiconductor REVISION HISTORY REVISION HISTORY REVISION DATE DESCRIPTION OF CHANGES 1.0 1/2011 • Initial release 2.0 9/2011 • Adjusted format to meet current compliance standards. No data was altered. 3.0 10/2011 • Updated the PC part number to MC. 4.0 2/2013 • Added PC33660BEF to the ordering information • Redefined VBB Load Dump Peak Voltage (in accordance with ISO 7637-2 & ISO 76373) for the 33660B • Added Module Level ESD (Air Discharge, Powered) (6) for the 33660B • Added note (6) • Increased ESD structure voltage for 33660B, and added bleed-off circuit on VBB pin in Figure 2 5.0 10/2013 • Clarified machine model limits for MC33660 and MC33660B page 5 33660 Analog Integrated Circuit Device Data Freescale Semiconductor 13 How to Reach Us: Information in this document is provided solely to enable system and software Home Page: freescale.com implementers to use Freescale products. There are no express or implied copyright Web Support: freescale.com/support information in this document. licenses granted hereunder to design or fabricate any integrated circuits based on the Freescale reserves the right to make changes without further notice to any products herein. Freescale makes no warranty, representation, or guarantee regarding the suitability of its products for any particular purpose, nor does Freescale assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. “Typical” parameters that may be provided in Freescale data sheets and/or specifications can and do vary in different applications, and actual performance may vary over time. All operating parameters, including “typicals,” must be validated for each customer application by customer’s technical experts. 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