ATA6624-EK Atmel, ATA6624-EK Datasheet
ATA6624-EK
Specifications of ATA6624-EK
Related parts for ATA6624-EK
ATA6624-EK Summary of contents
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... Introduction The development board for the Atmel ATA6622-EK, ATA6624-EK, ATA6626-EK) is designed to give designers a quick start with the ICs and for prototyping and testing of new LIN designs. The Atmel ATA6621, Atmel ATA6622, Atmel ATA6624 and Atmel ATA6626 are sys- tem basis chips (SBCs) with fully integrated LIN transceiver, window watchdog with adjustable trigger times and low-drop voltage regulator providing 5V/85mA (3 ...
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... Sleep Mode and Silent Mode guarantee a very low current consumption. This document has been developed to give the user an easy start with the development board of the Atmel ATA6621/22/24/26. For more detailed information about the use of these devices themselves, refer to the corresponding datasheets. ...
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... In order to communicate via the LIN bus interface you have to switch to normal mode by applying the VCC voltage (5V or 3.3V, as appropriate) at pin EN. 4970B–AUTO–03/11 Atmel ATA6622 Mode VCC WD_OSC 3.3V 1.23V 3.3V 1.23V Atmel ATA6624/26 Mode VCC WD_OSC 5V 1.23V 5V 1.23V ® ATA6621/22/24/26 is already active in the Pre-normal Section 2.3 on page 4 ...
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... NRES pin disappears and is defined as lead time t The timing basis of the watchdog is provided by the internal oscillator, whose time period t is adjustable via the external resistor R3 at the pin WD_OSC. For the Atmel ATA6621, the voltage at this pin is 2.5V, for the Atmel ATA6622/24/ 1.23V (see through ings are also different ...
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... Figure 2-1. Timing Sequence with R3 = 51k at the Atmel ATA6621 Undervoltage Reset t = 10ms reset NRES NTRIG PTRIG For the Atmel results in the different timing sequence shown in Figure 2-2. Timing Sequence with R3 = 51k at the Atmel ATA6622/24/ 3.3V/5V CC Undervoltage Reset t reset NRES NTRIG If you want to change the watchdog times mentioned above it is only necessary to change the value of the external resistor R3 (refer to the corresponding datasheet). 4970B– ...
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... TXD is low, the LIN output transistor is turned on and the bus is in the dominant state. An internal timer prevents the bus line from being driven permanently in the dominant state. If TXD is forced to low longer than t state. This time-out function is disabled in the Atmel ATA6626. 2.4.3 Output Pin (RXD) This pin reports the state of the LIN bus to the microcontroller ...
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... In the ATA6621 the Reset output is a push-pull state supplied by the VCC voltage. In the Atmel ATA6622/24/26 the Reset output is an open drain output implemented with a sin- gle MOS transistor which is switched on in case of a VCC undervoltage or if the watchdog is not triggered correctly. In order to pull up the NRES output of the Atmel ATA6622/24/26 an external resistor connected to VCC is necessary ...
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... It is not recommended to exceed this S limit, because the transistor could be damaged as a result of overtemperature higher out- put current is required, additional cooling of the external transistor has to be ensured (see Figure Figure 3-1. Atmel ATA6621/22/24/26 8 3-2, Figure 3-3 and Figure 3-4 on page Boosting the Voltage Regulator 9) ...
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... 80K/W (No Additional Cooling) max S thJA 150 versus 50K/W (Additional Cooling) max S thJA versus 20K/W (Additional Cooling) max S thJA Atmel ATA6621/22/24/ different coolings or thermal resistances S = 25˚ 85˚ 125˚ ( 25˚ 85˚C = 125˚ ( 25˚ 85˚ 125˚ ( the voltage max ...
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... Figure 3-5 the Atmel ATA6621. The supply voltage V than V Figure 3-5. Figure 3-6. Atmel ATA6621/22/24/ Figure 3-10 on page 12 show some typical operating characteristics measured at (reverse battery protection). The external circuitry is shown in bat Output Voltage PV versus Battery Voltage V CC ATA6621 with External Boosttransistor MJD31C ...
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... Figure 3-7. Figure 3-8. 4970B–AUTO–03/11 Atmel ATA6621/22/24/26 Load- transient Response Ch1: I OUT Startup Response Ch1 Ch2 Ch2 ...
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... Figure 3-9. Figure 3-10. Output Voltage PV Atmel ATA6621/22/24/26 12 Switching from Silent to Normal Mode Ch1: NRES, Ch2: PV versus Temperature at Different Load Currents CC 5,0 5 5,0 4 5 20mA OUT 5 100mA OUT 5 Temperature (° OUT 4970B–AUTO–03/11 ...
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... GND by replacing resistor. R12 is not mounted. Atmel ATA6621/22/24/26 R10 R10b 0 T1 (ATA6622/24/26) MJD31C TEMP C7 R12 47k 1nF MODE MODE ATA6621/ R3 WD_OSC ATA6622/ 13 ATA6624 51k NRES ATA6626 12 TXD (ATA6622/24/26) R11 47k Revision 2.0 / 2.1 KL_15 D3 LL4148 100nF R1 4.7k R9 PVCC 10k INH LIN C6 220pF ATA6621-EK ATA6622-EK ATA6624-EK ATA6626-EK 13 ...
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... Figure 4-2. Figure 4-3. Atmel ATA6621/22/24/26 14 Atmel ATA6621/22/24/26 Board Component Placement; Top Side, Top View Atmel ATA6621/22/24/26 Development Board; Top Side, Top View 4970B–AUTO–03/11 ...
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... Figure 4-4. 4970B–AUTO–03/11 Atmel ATA6621/22/24/26 Atmel ATA6621/22/24/26 Development Board; Bottom Side, Top View (as if PCB Were Transparent) 15 ...
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... Atmel ATA6621 and the microcontroller ATmega88, a flasher controlled via the LIN bus. The LIN interface of the slave is implemented with the Atmel ATA6624 and the control of the flasher as well as the protocol handling is done by the Atmel ATmega88 microcontroller. In the schematic of this slave node it is obvious that there are almost no other external components needed to fulfill the requirements of this application, other than the development board of the Atmel ATA6621/22/24/26 and the Atmel ATmega88 ...
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... Furthermore, the flasher produces some glitches, so that there are some capacitors needed in order to block the 12V power supply. Figure 5-2. 4970B–AUTO–03/11 Atmel ATA6621/22/24/26 A Simple Application Using the Development Board for the Atmel ATA6624 (Photograph) 17 ...
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... Revision History Please note that the following page numbers referred to in this section refer to the specific revision mentioned, not to this document. Revision No. 4970B-AUTO-03/11 Atmel ATA6621/22/24/26 18 History ATA6626 added C Versions added 4970B–AUTO–03/11 ...
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... Disclaimer: The information in this document is provided in connection with Atmel products. No license, express or implied, by estoppel or otherwise, to any intellec- tual property right is granted by this document or in connection with the sale of Atmel products. EXCEPT AS SET FORTH IN THE ATMEL TERMS AND CONDITIONS OF SALES LOCATED ON THE ATMEL WEBSITE, ATMEL ASSUMES NO LIABILITY WHATSOEVER AND DISCLAIMS ANY EXPRESS, IMPLIED OR STATUTORY WARRANTY RELATING TO ITS PRODUCTS INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICU- LAR PURPOSE, OR NON-INFRINGEMENT ...