PD63000 8-bit PoE Microcontroller Unit Source Control Drawing Description _________________ PowerDsine’s™ Microcontroller Unit, PD63000, is a member of Motorola’s HCS08 Family of 8-bit microcontroller units (MCUs). This MCU uses the enhanced HCS08 core and is pre-programmed with a special proprietary application. It is used in conjunction with PowerDsine’s PD64012 PoE Manager in Ethernet switches and Midspans to allow next generation network devices to share power and data over the same cable, according to IEEE 802.3af. When used in conjunction with the PD63000, the PD64012 operates in Enhanced mode. System Connectivity __________ In order to properly relate to the MCU in this document, a diagram of basic system connectivity is presented, hereafter. The various port groups are depicted along with their respective port lines. This block diagram can be compared with the application schematics from PowerDsine’s Application Notes and Data Sheets, so as to understand the circuits used. 0.1uF SYSTEM POWER The MCU features a 1 Mb/s SPI to each of the PoE Managers and a communication interface with the host CPU via UART or I2C protocol. The I/O lines, the SPI bus and the control signals are loaded by 50ohm serial resistors. The MCU runs at about 10 MHz, providing a 1 MHz clock frequency to the SPI bus. An external resonator is used for clock generation. 3V PTA3/KBIP3 PTA4/KBIP4 PTA5/KBIP5 PTA7/KBIP7 PTA6/KBIP6 PTF0 V DDAD PTF1 V SSAD PTG0/BKGD/MS PTG2/EXTAL PTG3 PTG4 PTG5 PTG6 PTG1/XTAL 59 58 57 56 55 54 53 52 51 50 49 48 PTA2/KBIP2 PTG7 2 47 PTA1/KBIP1 PTC0/TxD2 3 46 PTA0/KBIP0 PTC1/RxD2 4 45 PTF7 PTC2/SDA 5 44 PTF6 PTC3/SCL 6 43 PTF5 PTC4 7 42 V REFL PTC5 8 41 VREFH PTC6 9 40 PTB7/AD7 PTC7 10 39 PTB6/AD6 PTF2 11 38 PTB5/AD5 PTF3 12 37 PTB4/AD4 PTB3/AD3 PTB2/AD2 PTF4 13 36 PTE0/TxD1 14 35 PTE1/RxD1 15 34 18 19 20 21 22 23 24 25 PowerDsine PTD6/TPM2CH3 PTD5/TPM2CH2 PTD4/TPM2CH1 PTD3/TPM2CH0 PTD2/TPM1CH2 PTD1/TPM1CH1 PTD0/TPM1CH0 VDD VSS PTE7 PTE6 PTE5/SPSCK PTE4/MOSI PTE2/SS 32 PTE3/MISO 17 PTB1/AD1 33 PTB0/AD0 26 27 28 29 30 31 PTD7/TPM2CH4 IRQ 16 0.1uF C1 X1 PTB0/AD0 RS PTB1/AD1 PTB2/AD2 XTAL PORT B C2 EXTAL BACKGROUND HEADER VDD 1 BKGD/MS RESET OPTIONAL MANUAL RESET ASYNC INTERRUPT INPUT PORT C PORT G PORT D PTG5 PTG6 PTG7 PTF0 PTF1 PTF2 PTF3 PTF4 PTF5 PTF6 PTF7 PTB3/AD3 PTB4/AD4 PTB5/AD5 PTB6/AD6 PTB7/AD7 I/0 AND PERIPHERAL INTERFACE TO PTC0/TxD2 APPLICATION SYSTEM PTC1/RxD2 PTC2/SDA PTC3/SCL PTC4 PTC5 PTC6 PTC7 IRQ PTG0/BKDG/MS PTG1/XTAL PTG2/EXTAL PTG3 PTG4 PTA0/KBIP0 PTA1/KBIP1 PTA2/KBIP2 PTA3/KBIP3 PTA4/KBIP4 PTA5/KBIP5 PTA6/KBIP6 PTA7/KBIP7 PTD0/TPM1CH0 PTD1/TPM1CH1 PTD2/TPM1CH2 PTD3/TPM2CH0 PTD4/TPM2CH1 PTD5/TPM2CH2 PTD6/TPM2CH3 PTD7/TPM2CH4 PTE0/TxD1 PORT F PORT E PTE1/RxD1 PTE2/SS PTE3/MISO PTE4/MOSI PTE5/SPSCK PTE6 PTE7 Program Burn-in ______________ 64 61 60 PORT A VDD C BY 10uF RF Pin Configuration _____________ 63 62 VSSAD VREFL VDD CBLK MC9S08GBxx VSS The device is a Motorola’s MC9S08GB60CFU microprocessor control unit – this is an 8-bit device composed of standard on-chip peripherals including: an 8-bit CPU, a 60-kbyte flash EEPROM, a 4-kbyte RAM, an asynchronous serial communications interface, a serial peripheral interface, a 3-channel timer and a 5-channel timer. In addition this chip includes: an 10-bit analog-to-digital converter. RESET 1 V REFH V DDAD CBYAD Initial burn-in is accomplished via the background header (BDM), by PowerDsine. Thereafter the MCU is downloaded with a special Powerdsine program referred to as the PD64012 Enhanced Mode Software. This software can be downloaded via the UART port (pins 14 & 15, PTE0/TxD1 & PTE1/RxD1) or via the I2C port (pins 5 & 6, SDA & SCL.). Applicable Documents ________ IEEE 802.3af-2003 standard, DTE Power via MDI PowerDsine PD64012 Data Sheet, Cat. No. 06-0003-058 Serial Communication Protocol, Cat. No. 06-0032-056 PowerDsine Application Note 129 for Designing a 48-port Enhanced PoE System MC9S08GB/GT Data sheet (V1.5) 8-/16-Bit Products Division, Motorola, Inc. Obtain from: http://ewww.motorola.com/files/microcontrollers/doc/data_sheet/MC9S0 8GB60.pdf The Power over Ethernet Pioneers This document contains information that is proprietary to PowerDsine. As such, it is confidential and its disclosure is strictly prohibited by applicable law. If you and/or your company and PowerDsine have executed a Non-Disclosure Agreement, then this document is being provided in connection with the Agreement, and the information contained herein is covered by the Agreement and under its terms may not be disclosed or used and must be protected by you and/or your company. PD63000 8-bit PoE Microcontroller Unit Package Information The PD63000 is housed in a 64-pin LQFP plastic package, 10 x 10 x 1.4 mm, meeting JEDEC’s MS-026 package outline and dimensions. 0.2 H A-B D 4 Pls 7 D 64 PIN 1 IDENTIFIER 0.2 C A-B D 49 (S) 0.05 1 48 A A2 B E1 E VIEW Y 16 Z (L1) E/2 VIEW AA 33 17 L R1 A1 E1/2 0.25 GAGE PLANE R 32 D1/2 SECTION AB - AB D/2 D1 ROTATED° 90 CW b1 BASE METAL D c 1 c b PLATING H J C SEATING PLANE VIEW AA Z2 (x4) A b (x64) X=A,B or D X 0.08 C A-B D 0.08 C Z3 (x4) J Notes: 1. Dimensions are in millimeters. 2. Interpret dimensions and tolerances per ASME Y14.5m-1994. 3. Datums A, B and D to be determined at datum plane H. 4. Dimensions D and E to be determined at seating plane C. 5. Dimension b does not include dambar protrusion. Allowable dambar protrusion shall not cause the lead width to exceed the maximum b dimension by more than 0.08 mm. Dambar cannot be located on the lower radius or the foot. Minimum space between protrusion and adjacent lead or protrusion 0.07mm. 6. Dimensions D1 and E1 do not include mold protrusion. Allowable protrusion is 0.25mm per side. D1 and E1 are maximum plastic body size dimensions including mold mismatch. AB AB e/2 e (x60) 8 VIEW Y G 7. Exact shape of each corner is optional. 8. These dimensions apply to the flat section of the lead between 0.10mm and 0.25mm from the lead tip. Dim. Min. A --- 1.60 A1 A2 b 0.05 1.35 0.15 1.45 0.27 R1 0.17 R2 0.08 --- b1 c c1 0.17 0.23 S F 0.20 --- 6.00 7.00 G 6.00 7.00 7° D D1 e EXPOSED PAD F Max. 0.20 0.09 0.16 0.09 12.00 BSC Dim. L L1 Min. Max. 0.75 0.45 1.00 REF. --0.08 Z 0° 10.00 BSC 0.50 BSC Z1 0° --- Z2 11 ° 13 ° E 12.00 BSC Z3 11 ° 13 ° E1 10.00 BSC VIEW J-J www.powerdsine.com 06-0008-058(Rev. 1.4) / 10 March 2004 2 © PowerDsine 2004 Information in this document subject to change without prior notice. PD63000 8-bit PoE Microcontroller Unit Pin Functionality _______________________________________________ PIN PIN NAME 1. Reset 2. PTG7 3. PTC0/TxD2 4. PTC1/RxD2 5. PTC2/SDA 6. PTC3/SCL 7. PTC4 8. PTC5 9. PTC6 10 PTC7 11 PTF2 12 PTF3 13 PTF4 14 PTE0/TxD1 15 PTE1/RxD1 16 IRQ 17 PTE2/SS 18 PTE3/MISO 19 PTE4/MOSI 20 PTE5/SPSCK 21 PTE6 22 PTE7 23 VSS 24 VDD 25 PTD0/TPM1 26 PTD1/TPM1 27 PTD2/TPM1 28 PTD3/TPM2 29 PTD4/TPM2 30 PTD5/TPM2 31 PTD6/TPM2 32 PTD7/TPM2 33 PTB0/AD0 PIN TYPE Digital input Digital I/O Digital I/O Digital I/O Digital I/O Digital I/O Digital I/O Digital I/O Digital I/O Digital I/O Digital I/O Digital input Digital I/O Digital I/O Digital I/O Digital I/O Digital I/O Digital I/O Digital Digital Digital I/O Digital I/O Digital I/O Digital I/O A/D input PIN DESCRIPTION xRESET_IN (1) PIN PIN NAME 34 PTB1/AD1 35 PTB2/AD2 36 PTB3/AD3 37 PTB4/AD4 38 PTB5/AD5 39 PTB6/AD6 40 PTB7/AD7 41 VREFH 42 VREFL 43 PTF5 44 PTF6 45 PTF7 46 PTA0/KBIP0 47 PTA1/KBIP1 48 PTA2/KBIP2 49 PTA3/KBIP3 50 PTA4/KBIP4 51 PTA5/KBIP5 52 PTA6/KBIP6 53 PTA7/KBIP7 54 PTF0 55 PTF1 56 VDDAD 57 VSSAD 58 PTG0/BKGD/ 59 PTG1/XTAL 60 PTG2/EXTAL 61 PTG3 62 PTG4 63 PTG5 64 PTG6 SDA SCL TX_3_3_V RX_3_3_V xInt_in MISO MOSI SCK xDISABLE_PORTS D (ground) 3_3VCPU Shorted to pin 28 Shorted to pin 25 xSPI_CS0 xSPI_CS1 xSPI_CS2 xSPI_CS3 PIN TYPE A/D input A/D input A/D input A/D input A/D input A/D input A/D input A/D ref. A/D ref. Digital I/O Digital I/O A/D input A/D input A/D input A/D input Analog Analog Digital I/O Resonator/o Resonator/o Digital I/O Digital I/O Digital output Digital I/O PIN DESCRIPTION HW VER I2C_Init_E GND_Analog_CPU VREFH GND_Analog_CPU xASIC_RESET (1) xDISABLE_PORTS_TO_ASIC (1) Power Good PG3 (2) Power Good PG2 (2) Power Good PG1 (2) VDDAD GND_Analog_CPU XTAL EXTAL xInt_Out (future use) SELF RESET (1). Upon receiving an active low reset level via pin 1 (xRESET_IN) from the switch host, the PD63000 MCU immediately disables all PoE Manager (PD64012) output ports. The MCU does this using the xDISABLE_PORTS_TO_ASIC signal (pin 47). During this process, the PoE Managers are still actively operational, although their ports are disabled. Once the active low is released, the MCU performs a software reboot. After the reboot, the MCU sends a reset to all PoE Managers, via pin 46 (xASIC_RESET). (2) Refer to Tech Note TN-113 for information on power management. www.powerdsine.com 06-0008-058(Rev. 1.4) / 10 March 2004 3 © PowerDsine 2004 Information in this document subject to change without prior notice. PD63000 8-bit PoE Microcontroller Unit Notice ________________________________________________________ PowerDsine assumes no responsibility or liability arising from the use of this Data Sheet, as described herein, nor does it convey any license under its patent rights or the rights of others. The information contained herein is believed to be accurate and reliable at the time of printing. However, due to ongoing product improvements and revisions, PowerDsine cannot accept responsibility for inadvertent errors, inaccuracies, subsequent changes or omissions of printed material. PowerDsine Ltd. reserves the right to make changes to products and to their specifications as described in this document, at any time, without prior notice. No rights to any PowerDsine Ltd. Intellectual property are licensed to any third party, directly, by implication or by any other method. No Use with Life-Support or Critical Applications _____________________________________________________________________ PowerDsine’s products are not designed, intended, or authorized for use as components in systems intended for: (1) (2) surgical implant into the body, or other applications intended to support or sustain life, or any other applications whereby a failure of the PowerDsine’s product could create a situation where personal injury, death or damage to persons, systems, data or business may occur. PowerDsine assumes no liability in connection with use in these situations and the disclaimers provided below in this manual shall apply. Should a buyer purchase or use PowerDsine’s products for any such unintended use or unauthorized applications, buyer shall indemnify PowerDsine and its officers and employees against any and all claims arising out of or in connection with any claim of personal injury, death or other damage of the type described above, associated with such use. DISCLAIMERS __________________________________________________________________________________________________ POWERDSINE MAKES NO WARRANTY, REPRESENTATION OR GUARANTEE REGARDING THE SUITABILITY OF THE PRODUCTS CONTAINED HEREIN FOR ANY PARTICULAR PURPOSE, NOR DOES POWERDSINE ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCTS OR CIRCUIT, AND SPECIFICALLY DISCLAIMS ANY AN ALL LIABILITY, INCLUDING, WITHOUT LIMITATION, CONSEQUENTIAL OR INCIDENTAL DAMAGES. BY USING OUR PRODUCTS USER AGREES NOT TO MAKE ANY CLAIM FOR PUNITIVE DAMAGES. POWERDSINE MAKES NO REPRESENTATION OR WARRANTY, EXPRESSED OR IMPLIED, WITH RESPECT TO THE SUFFICIENCY OR ACCURACY OR UTILITY OF ANY INFORMATION CONTAINED HEREIN. POWERDSINE EXPRESSLY ADVISES THAT ANY USE OF OR RELIANCE UPON SAID INFORMATION IS AT THE RISK OF THE USER AND THAT POWERDSINE SHALL NOT BE LIABLE FOR ANY DAMAGE OR INJURY INCURRED BY ANY PERSON OR ORGANIZATION ARISING OUT OF THE SUFFICIENCY, ACCURACY, OR UTILITY OF ANY INFORMATION CONTAINED HEREIN OR IN CONNECTION WITH THE USE OF ANY OF THE PRODUCTS DESCRIBED HEREIN. POWERDSINE IS NOT RESPONSIBLE FOR ANY CHANGES IN THE SPECIFICATIONS OR ERRATA OF THIS PRODUCT. INFORMATION ON THE BASIC PRODUCT CAN BE FOUND AT MOTOROLA'S HOMEPAGE. Revision History Revision Level / Date Para. Affected Description 1.2 / 9 Feb. 04 Front & back pages Added policy statement and replaced Cat. no. 1.3 / 12 Feb. 04 Pin Functionality (page 3) Added pin descriptions and explanation related to reset. 1.4 / 10 Mar. 04 Pin Functionality (page 3) Added definitions for power management pins (Power Good) © 2004 PowerDsine Ltd. All rights reserved. PowerDsine is a registered trademark of PowerDsine LTD. All other products or trademarks are property of their respective owners. The product described by this manual is a licensed product of PowerDsine. www.powerdsine.com 06-0008-058(Rev. 1.4) / 10 March 2004 4 © PowerDsine 2004 Information in this document subject to change without prior notice.