SMSC Network Card EVB EMC2101 User Manual

EVB-EMC2101 User Manual  
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SMSC EMC2101  
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2 Getting Started  
2.1  
2.2  
System Requirements  
To use the EVB you will need:  
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A PC running Windows 2000 or XP  
Display resolution 800x600 (or larger to view several windows simultaneously)  
An available USB port  
Feature Summary  
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Chip Manager (SMSC application) allows viewing and changing register values  
Graphing of any register  
Headers for connecting a remote diode or CPU/GPU thermal diode  
Resistance Error Correction verification  
Autonomous register loading via included EEPROM (EMC2101-R only)  
USB communication to evaluation board  
An external SMBus master may also be used via jumper settings  
2.3  
Installing the EVB  
1. Install the Chip Manager (ChipMan) application and device driver on a PC by running Setup.exe  
from the ChipMan distribution CD. A revision history and install/uninstall notes may be found in the  
readme.txt file on the disk.  
2. Connect the supplied USB cable to an available USB port on the PC. Plug the “mini-B” end of the  
USB cable into EVB connector P6. The +3.3V and Bridge ACT LEDs should illuminate. After the  
EVB is connected to the PC the “Find New Hardware” wizard will pop up for USB driver installation.  
Follow the instructions in the readme.txt file to complete the installation process.  
3. Start the EVB Software by selecting the Chip Manager application from the SMSC folder from the  
Programs Windows Start menu. The EVB will initialize and the Chip Manager Quick Help screen  
will appear as in Figure 2.1. The USBAct LED should be blinking when the Chip Manager is  
running. For more help with ChipMan, select Help -> Contents for an html based help document  
as shown in Figure 2.2.  
Note: The SMSC ChipMan application allows viewing and changing register values for a variety of  
EVBs including the EMC1001, EMC1002, EMC1023, EMC1033 and EMC2101. The ChipMan  
software only needs to be installed once to support all of these EVBs. The list of supported  
EVBs may be found in the pulldown menu under Options -> Select Device.  
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Figure 2.1 Chip Manager Quick Help Startup Screen  
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Figure 2.2 Chip Manager Help Screen  
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2.4  
Board Layout  
The EVB was designed for ease of use and user experimentation with easily accessible jumpers and  
access to the SMBus data lines. Figure 2.3 below shows the silk-screen for the EMC2101 EVB.  
Figure 2.3 EMC2101 Board Outline and Silk-screen  
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3 Hardware Description  
3.1  
Introduction  
The EMC2101 EVB provides the means to demonstrate EMC2101 features and to view and modify  
registers. A +12V fan and power supply are provided to demonstrate the fan control functionality. LEDs  
indicate status information and test points are included to monitor system voltages with a user provided  
voltmeter or oscilloscope. Figure 3.1shows an overview of the EMC2101 EVB.  
Figure 3.1 EVB Block Diagram  
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3.2  
3.3  
EMC2101  
The EMC2101 is an SMBus temperature sensor with 1 internal and 1 external sensor in an 8 pin  
MSOP and 8 pin SOIC package. Communications with the EMC2101 sensor is via the SMBus.  
USB to SMBus Bridge  
The USB to SMBus bridge is based on an 8051 micro controller with integrated USB and SMBus  
interfaces as well as internal flash and RAM. During EVB manufacture, firmware is loaded into the  
bridge that provides the interface between the USB and the SMBus. Power is sourced to the micro  
controller from the USB interface for device power and communication.  
3.3.1  
Direct SMBus Connect Option  
It is also possible to connect an external SMBus master to the EMC2101 EVB. A few jumper settings  
are all that is required to drive the EMC2101:  
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Simply remove the jumpers on JP6 and connect the SMBus master to the SCL, SDA and ALERT  
pins, as well as an external supply for +3.3V.  
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The +3.3V can be supplied by the SMBus bridge by leaving the +3.3V jumper in place and retaining  
the USB connection.  
3.4  
3.5  
Connecting to Remote Diodes  
This EVB is populated with jumpers to connect to an external diode or CPU/GPU. If connecting to a  
CPU’s thermal diode, it is necessary to provide a common ground. Also, it is usually necessary to bias  
the appropriate CPU Vcc plane above this common ground to avoid forward-biasing the ESD diodes  
with the temperature sensor signals. Test point TP3, 8, 10, or 11 provides a ground connection. Consult  
the CPU manufacturer’s datasheet for guidance on interfacing to the thermal diode. Refer to the  
schematic EVB-EMC2101 SCH-7069-REVB1.pdf for details on the EVB header connections.  
Resistance Error Correction (REC)  
The remote diode DN signal path has a 100 ohm series resistor to demonstrate the EMC2101’s REC  
feature. The resistor may be effectively removed from the circuit by installing a jumper on JP7 or JP13  
(-R diode). See Table 3.4 for details on the REC jumper settings.  
3.6  
3.7  
Power Source  
This EVB requires only a USB cable. The USB-SMBus bridge regulates the +5V USB power to +3.3V  
used by the EMC2101 and other EVB ciruitry such as the fan and resistive heater.  
Test Points  
Test points are provided for:  
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Ground  
+3.3V power  
+5V_USB power  
FAN pin output  
ALERT output  
TACH for 3 wire fan (included)  
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3.8  
LED Indicators  
LEDs indicate the status of the following signals (Table 3.1).  
Table 3.1 LED Status Indicators  
LED  
SIGNAL  
OFF  
GREEN  
RED  
LED1  
LED2  
LED3  
ALERT  
+3.3V  
+3.3V power OFF  
+3.3V power OFF  
No ALERT  
ALERT  
NA  
+3.3V power ON  
Bridge Activity  
NO Activity on  
USB/SMBus Bridge  
Activity on  
USB/SMBus Bridge  
NA  
LED4  
LED5  
USB Activity  
NO Activity on USB port  
U10 power OFF  
Activity on USB port  
U10 power ON  
NA  
NA  
EMC2101  
Power  
LED6  
EMC2101-R  
Power  
U11 power OFF  
U11 power ON  
NA  
3.9  
Jumper Settings  
This EVB has many jumper configurations to evaluate all of the features of the EMC2101.  
3.9.1  
Device Power  
To enable one of the 2 devices on the EVB, use jumpers J2 and J3. When a device is selected, the  
appropriate LED will light as shown in Table 3.1. Table 3.2 below summarizes the options. Note: only  
one device may be active at a time as both devices have the same SMBus address.  
Table 3.2 Device Power  
JUMPER  
NAME  
POSITION 1-2  
POSITION 2-3  
J2  
J3  
EMC2101 POWER  
U10 power ON  
U11 power ON  
U10 power OFF  
U11 power OFF  
EMC2101-R POWER  
3.9.2  
Fan Control  
To adjust the fan control circuit one 3-way jumper is used. The two settings are DAC mode and PWM  
mode. The default setting is PWM which requires the fan to be connected to FAN CONN. 1 and the  
JP8 shorted from pin 1-2.  
If the linear DAC mode is desired, several things need configured. First, JP8 must be shorted from pin  
2-3 and the fan must be connected to FAN CONN. 2. Then, the device must be configured for linear  
operation via the ChipMan software. Consult the datasheet for these settings.Table 3.3.  
Table 3.3 Fan Driver Configuration  
FAN DRIVER  
CONFIGURATION  
JP8  
FAN CONNECTOR  
PWM  
DAC  
Position 1-2  
Position 2-3  
P9  
P5  
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3.9.3  
Remote Diode  
The remote diode on board the EMC2101 EVB has a heater and an optional in-line series resistance  
adjustment. Checking the REC feature of the EMC2101 is accomplished by removing the jumper on  
JP7. This adds 100 ohms of series resistance to the DN line of the diode connection. To return to 0  
ohm series resistance, replace the jumper on JP7.  
To heat the diode, place a jumper on JP10. To return to ambient conditions, remove JP10. These  
remote diode options are summarized in Table 3.4 below.  
Table 3.4 Remote Diode Settings  
JUMPER  
NAME  
OPEN  
SHORT  
JP7  
REC  
Q11 - 100 ohms in  
DN line (diode remote -)  
Q11 - 0 ohms in  
DN line (diode remote -)  
JP13  
JP10  
REC  
Q12 - 100 ohms in  
DN line (diode remote -)  
Q12 - 0 ohms in  
DN line (diode remote -)  
HEATER  
Ambient temp on remote diode  
(Q12)  
1.0W resistive heater on remote diode (Q12)  
This EVB also allows for an off-board diode to be tested (see Table 3.5). This is done by removing  
both jumpers on JP8. Then connect Pin 1 to the ‘remote+’ terminal of the remote diode and Pin 3 to  
the ‘remote-‘ terminal of the remote diode. Make sure a common ground exists between the remote  
diode (GPU, etc.) and the EMC2101 EVB. Also ensure that the remote diode is properly biased  
according to the diode manufacture.  
Table 3.5 Remote Diode Configurations  
CONFIGURATION  
JUMPER  
PIN 1  
PIN 2  
PIN 3  
PIN 4  
On-board diode (Q11)  
JP9  
JP9  
short / DP  
remote + / DP  
short / DN  
remote - / DN  
Off-board diode (CPU,  
GPU, etc.)  
open  
open  
On-board diode (Q12)  
JP12  
JP12  
short / DP  
remote + / DP  
short / DN  
remote - / DN  
Off-board diode (CPU,  
GPU, etc.)  
open  
open  
A unique feature of the EMC2101-R device is the ability to start in one of several different  
configurations based on the pull up resistor on the ALERT output. The EVB allows the user to quickly  
evaluate each of the 4 configurations by adjusting JP11 as shown in Table 3.6. When using the auto  
load via EEPROM, ensure that the Autorefresh Registers is not selected until the loading is complete  
(less than 1 sec).  
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NOTE: Only one jumper is to be installed on JP11 and a minimum of one jumper must be installed  
for the device to operate.  
Table 3.6 ALERT Pull-up Resistors - SMBus/FAN MODE  
JUMPER  
NAME  
OPEN  
SHORT  
JP11  
33k  
NA  
Auto load via EEPROM -  
Initial FAN 0% Duty Cycle  
18k  
10k  
5.6k  
NA  
NA  
NA  
Auto load via EEPROM -  
Initial FAN 100% Duty Cycle  
Host load via SMBus -  
initial FAN 0% Duty Cycle  
Host load via SMBus -  
initial FAN 100% Duty Cycle  
3.10  
Other Sensor Features  
Other features such as Ideality Factor Configuration, Conversion Rate, Digital Filtering, Look-up Table  
Functionality, and Standby Mode can be controlled with EMC2101 registers. See the datasheet register  
description for details.  
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4 Software Description  
4.1  
Chip Manager Overview  
The Chip Manager application (ChipMan) initially displays the main Help screen, where detailed  
description of the application’s features may be found. The Help screens can be displayed at any time  
by selecting Help from the menu bar. ChipMan enables the user to display temperature readings, set  
temperature limits and read/write configuration register values.  
4.2  
Temperature/Register History Graph  
To open a Temperature or Register History Graph window, select the register or registers to plot in the  
ChipMan application. then select Options -> Plot Register Data from the menu bar. Once the graph  
appears, select Control -> Start to begin plotting data. The history plot continuously updates the  
register data reported by the EMC2101. Figure 4.1below is a typical Temperature History with the  
external diode starting at room temp and then being heated using the HEATER jumper (JP2).  
Figure 4.1 EMC2101 Temperature History Graph  
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