www.DataSheet4U.com DA9171A.000 July 31, 1997 MAS9171A OCTAL PORT PROTECTON • Parallel In, Parallel Out • High Voltage Inputs • Automotive DESCRIPTION The MAS9171A is an eight channel protection circuit for microprocessors in automotive applications. All inputs are protected against energy rich pulses according to DIN40839/ISO7637. Internal analog filters and suitable input threshold voltages provide the functionality within a noise spectrum of 150 kHz up to 1 GHz without need of external filter components. The MAS9171A is optimized for low current consumption. FEATURES • • • • • • • APPLICATION • Replacement of protection circuitry in car electronics and industrial bus systems 8 digital channels Supply voltage 3.3 V/5 V Low supply current High voltage inputs Internal analog filter -40°C to +125°C SO-18 package BLOCK DIAGRAM VDD OUT1 IN1 OUT2 IN2 OUT3 IN3 IN4 OUT4 PROTECT FILTER COMP OUT5 IN5 OUT6 IN6 OUT7 IN7 OUT8 IN8 GND 1 www.DataSheet4U.com DA9171A.000 July 31, 1997 PIN CONFIGURATION PIN DESCRIPTION Pin Name Pin Type GND IN1 IN2 IN3 IN4 IN5 IN6 IN7 IN8 OUT8 OUT7 OUT6 OUT5 OUT4 OUT3 OUT2 OUT1 VDD 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 G I I I I I I I I O O O O O O O O P Function Ground Digital Input 1 Digital Input 2 Digital Input 3 Digital Input 4 Digital Input 5 Digital Input 6 Digital Input 7 Digital Input 8 Digital Output 8 Digital Output 7 Digital Output 6 Digital Output 5 Digital Output 4 Digital Output 3 Digital Output 2 Digital Output 1 Positive Supply Voltage 2 www.DataSheet4U.com DA9171A.000 July 31, 1997 ABSOLUTE MAXIMUM RATINGS Parameter Symbol Supply Voltage Input Voltage ESD Voltage Output Current (Note 1) Ambient Temperature Storage Temperature VDD VIN IOUT Tamb TStg Conditions T = 125°C, f=100Hz, 5% On MM (EIAJ ED-4701 Method C-111) T=125°C Min Max Unit -0.5 -200 -500 7 200 500 5 +125 +150 V V V mA o C o C -40 -55 RECOMMENDED OPERATION CONDITIONS Parameter Symbol Supply Voltage VDD Supply Current IDD Conditions Min Typ Max Unit 3.3 5.0 5.5 V 3nA 10 µA VDD = 5.0 V VIN 1…8 = 0 V ELECTRICAL CHARACTERISTICS ◆ Parallel input port (T=-40°C .. +125°C, VDD = 3.3V..5.5V) Parameter Symbol Conditions Min Typ Max Unit Input High Voltage (Note 2) VIH VDD = 5.0 V 5.0 5.5 6.0 V Input Low Voltage (Note 2) VIL VDD = 5.0 V 2.25 2.75 3.25 V DC Input Voltage Vmax Only 1 input at the same time -100 VDD+100 V Input Resistance RIN1 -1V<VIN1<VDDx2.25 140 225 320 kΩ 100 150 200 kHz 3 dB Frequency of Analog Filter fd ◆ Parallel digital outputs (T=-40°C .. +125°C, VDD = 5V) Parameter Symbol Conditions Min Typ Output High Voltage VOH ISource = 3.0 mA 4.1 4.6 Output Low Voltage VOL ISink = 3.0 mA Signal Rise Time tR no load 50 500 ns Signal Fall Time tR no load 50 500 ns Note 1: The sum of all output currents must not exceed 16 mA Note 2: Typical values of VIH / VIL can be calculated as follows: 0.35 Max Unit V 0.6 V VIH = 1.1 x VDD VIL = 0.55 x VDD 3 www.DataSheet4U.com DA9171A.000 July 31, 1997 FUNCTIONS ◆ Input protection The input protection is composed of a high voltage thin film series resistor, a metal-to-metal capacitor to ground and a Zener diode to GND. The circuit provides the ability of withstanding energy rich voltage pulses as well as fast transient high voltage bursts without damaging the MAS9171A or devices connected to it. The resistance of each input to ground is approx. 225 kOhms. Each input is protected against electrostatic discharge (ESD) according to Machine Model EIAJ ED-4701 Method C-111 (+/-500 kV, 200 pF, 0 Ohms). The device has been specially designed for high decoupling between Inputs and Power Supply or Outputs to prevent voltage overswing when applying test pulses according to DIN40839/ISO7637. For a given ambient temperature the maximum pulse length is limited by the maximum silicon temperature of T=150°C. ◆ Analog filter The input protection is followed by a passive low pass filter of 2nd order with a 3 dB frequency of 150 kHz. This filter is used to block high frequency components coupled through capacitive coupling clamps or electromagnetic field. ◆ Comparator The output signal of the analog filter of each channel is pulse-shaped by a Schmitt-Trigger Comparator with strong output drivers. The output stage works with non-overlapping clocks to reduce current spikes at the Supply Pins caused by change of output level. ◆ Input levels The Ouput OUTx is “High” if the corresponding input voltage VINx > 5.5 V and “Low” if VINx < 2.75 V (typical values). 100 K 1K 125 K IN 1….8 to Comparator 6.8V 125 K 6.8V 9pF 4pF Fig 1.: Input Channel of MAS9171A 4 www.DataSheet4U.com DA9171A.000 July 31, 1997 APPLICATION INFORMATION • GENERAL In the late 70ties microcontrollers have been introduced into most of the low cost applications in the field of consumer, industrial and automotive. Lowest cost 8-Bit microcontrollers are used in modern computer monitors for user programmable adjustment of the picture geometrie. A modern car can carry up to 40 microcontrollers that control motor managment, air condition, wipers, brakes, instruments,...... The increased density of complex electronic systems results in high electromagnetic fields with a wide frequency spectrum in the environment. Examples for typical noise sources are DC-Motors, ignitors, discharge lamps, switch-mode supplies and all different kinds of transmitters like mobile phones and radio stations. The requirements on EMI immunity are defined in several DIN, ISO and IEC standards. Design-Engineers have to think of how to protect sensitive components like microcontrollers against overvoltage pulses. Especially pulses with short rise times might cause problems because most of the standard components are not designed to work properly at frequencies above the cut-off frequency. In addition the layout of the PCB is very critical at high frequencies. Filters components have to be placed very closely to the connectors leading to external wires that may work as antennas. It is quite common that a lot of filter and protection components have to be designed in at a very late phase of the project when starting EMI measurements with pre-production parts. This can cause delays to the product introduction phase and therefore it is very important to think about the limits of sensitive components already with the first Prototypes. • INPUT PROTECTION FOR MICROCONTROLLERS A typical protection circuit for a digital input of a Vdd HCMOS microcontrollers consists of one series resistor, one or two block capacitors to Vss and Vin two clamping diodes to Vss/Vdd. P1 The series resistor shall limit the maximum current into the internal protection diodes to a value below the latch-up current of the input structure (typ. 25mA). Together with the capacitor it builds up a 1th order RC-filter.The purpose of the filter is to get a stable signal within the sampling period of the microcontroller without need of software filtering. For resistor values > 100 kOhms however, the Fig.2 : Discrete protection circuit leakage current of the port may cause unwanted dropout voltage which is not any longer neglectible to the input voltage. Over the full temperature and supply voltage range this can cause severe tolerance problems. Those inputs need extra clamping diodes to the Vss/Vdd and a lower value series resistor. Most of 0805/1204 SMD resistors are specified for voltages < 200V. For higher voltages two resistors in series are recommended. Especially for applications with a lot of input ports the protection circuitry around the microcontroller consumes a big amount of board space and therefore makes the board layout very difficult even when using SMD components. Each component is a potential source of an error in production and must be tested with In-circuit testers. uC 5 www.DataSheet4U.com DA9171A.000 July 31, 1997 APPLICATION INFORMATION • INPUT PROTECTION USING MAS9171A The MAS9171A is a eight channel protection circuit for microprocessors in automotive applications that may be used in industrial applications as well. All inputs are protected against energy rich pulses according to DIN40839/ISO7637. Internal analog filters and suitable input threshold voltages provide the functionality within a noise spectrum of 150KHz up to 1GHz without need of external filter components. The MAS9171A is optimized for low current consumption. Advantages of MAS9171A VDD VIN1 VOUT1 VIN2 VOUT2 VOUT3 VIN3 VIN4 - lower price when comparing Part+Board costs - easy layout - better reliability - less test time - universal to use, less development time Protect VOUT4 Filter COMP VIN5 VOUT5 VIN6 VOUT6 VIN7 VOUT7 VOUT8 VIN8 GND Fig. 3: Block diagram of MAS9171A • APPLICATION EXAMPLES VBAT PGND Sensors Oil Filter+ Protection 0-12V Vdd VoltageRegulator + Reset Vdd Vbat Res Switch 1 MAS9171 Port1 Instrument Driver Generator Batt. Vdd Vbat Tacho MAS9171 Port2 MAS9171 Port3 uC Lamp Driver Vdd EEPROM ABS Fig.4: Electronic Dashboard for Cars 6 www.DataSheet4U.com DA9171A.000 July 31, 1997 APPLICATION INFORMATION Fig. 5 shows how to use the MAS9171A to detect the condition of switches V Bat V Ignition Vdd VoltageRegulator +Reset Filter+ Protection ! " Vdd 4x47K MAS9171 Res Vdd µC 4x47K Xtal1 Xtal2 Fig. 5: Application Circuit (Detection of Switches) IMPORTANT ! • The MAS9171A shall be placed closely to the microprocessor to avoid voltage spikes at the uC inputs caused by currents on the Supply Pins and/or Pins OUT1 to OUT8. • A block capacitor of 33nF close to the Supply Pins is recommended • It is important to connect external Pull-Up resistors to Vignition in order to prevent quiescent current into the MAS9171A (Note: MAS9171A has internal pull-down of 225Koms to Gnd). 7 www.DataSheet4U.com DA9171A.000 July 31, 1997 DEVICE PACKAGE OUTLINES 18 LEAD SO OUTLINE (300 MIL BODY) 5° TYP. 5° TYP. 5° TYP. 1.27 5° TYP. TYP. 5°TYP 0.33 x 45° 0.25 RAD. MIN. 0.36 0.48 0-0.13 RAD. 0.94 1.12 2.36 2.64 SEATING PLANE 0.10 0.30 0.86 TYP. 11.35 11.75 10.01 10.64 7.39 7.59 PIN 1 ALL MEASUREMENTS IN mm 8 www.DataSheet4U.com DA9171A.000 July 31, 1997 ORDERING INFORMATION Product Code MAS9171AS MAS9171AS-T Product OCTAL Port Protection OCTAL Port Protection Package 18 Pin SO 0.3” 18 Pin SO 0.3” Comments Tape & Reel LOCAL DISTRIBUTOR MICRO ANALOG SYSTEMS OY CONTACTS Micro Aanalog Systems Oy Kamreerintie 2, P.O.Box 51 FIN-02771 ESPOO, FINLAND Tel. (09) 80 521 Tel. Int. +358 9 80 521 Telefax +358 9 805 3213 E-mail: [email protected] NOTICE Micro Aanalog Systems Oy reserves the right to make changes to the products contained in this data sheet in order to improve the design or performance and to supply the best possible products. Micro Aanalog Systems Oy assumes no responsibility for the use of any circuits shown in this data sheet, conveys no license under any patent or other rights unless otherwise specified in this data sheet, and makes no claim that the circuits are free from patent infringement. Applications for any devices shown in this data sheet are for illustration only and Micro Aanalog Systems Oy makes no claim or warranty that such applications will be suitable for the use specified without further testing or modification. 9