COM20020I-HT SMSC, COM20020I-HT Datasheet - Page 42

COM20020I-HT

Manufacturer Part Number

COM20020I-HT

Description

Network Controller & Processor ICs ARCNET Contrllr

Manufacturer

SMSC

Datasheet

1.COM20020I-HT.pdf (69 pages)

Specifications of COM20020I-HT

Product

Controller Area Network (CAN)

Number Of Transceivers

Data Rate

5 Mbps

Supply Voltage (max)

5.5 V

Supply Voltage (min)

4.5 V

Supply Current (max)

40 mA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

Package / Case

TQFP-48

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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logic "1" is written to bit 7 of the Configuration Register. The device remains in reset as long as this bit is set. The

software reset does not affect the microcontroller interface modes determined after hardware reset, nor does it affect the

contents of the Address Pointer Registers, the Configuration Register, or the Setup1 Register. A hardware reset occurs

when a low signal is asserted on the nRESET input. The minimum reset pulse width is 5T

by the internal digital filter, which filters short glitches to allow only valid resets to occur.

Upon reset, the transmitter portion of the device is disabled and the internal registers assume those states outlined in the

Internal Registers section. After the nRESET signal is removed the user may write to the internal registers. Since writing

a non-zero value to the Node ID Register wakes up the COM20020I 3V core, the Setup1 Register should be written

before the Node ID Register. Once the Node ID Register is written to, the COM20020I 3V reads the value and executes

two write cycles to the RAM buffer. Address 0 is written with the data D1H and address 1 is written with the Node ID. The

data pattern D1H was chosen arbitrarily, and is meant to provide assurance of proper microsequencer operation.

6.5

Bus Determination

Writing to and reading from an odd address location from the COM20020I 3V's address space causes the COM20020I

3V to determine the appropriate bus interface. When the COM20020I 3V is powered on the internal registers may be

written to. Since writing a non-zero value to the Node ID Register wakes up the core, the Setup1 Register should be

written to before the Node ID Register. Until a non-zero value is placed into the NID Register, no microcode is executed,

no tokens are passed by this node, and no reconfigurations are generated by this node. Once a non-zero value is

placed in the register, the core wakes up, but the node will not attempt to join the network until the TX Enable bit of the

Configuration Register is set.

Before setting the TX Enable bit, the software may make some determinations. The software may first observe the

Receive Activity and the Token Seen bits of the Diagnostic Status Register to verify the health of the receiver and the

network.

Next, the uniqueness of the Node ID value placed in the Node ID Register is determined. The TX Enable bit should still

be a logic "0" until it is ensured that the Node ID is unique. If this node ID already exists, the Duplicate ID bit of the

Diagnostic Status Register is set after a maximum of 420mS (or 840mS if the ET1 and ET2 bits are other than 1,1). To

determine if another node on the network already has this ID, the COM20020I 3V compares the value in the Node ID

Duplicate ID bit, and repeat the process until a unique Node ID is found. At this point, the TX Enable bit may be set to

allow the node to join the network. Once the node joins the network, a reconfiguration occurs, as usual, thus setting the

MYRECON bit of the Diagnostic Status Register.

The Tentative ID Register may be used to build a network map of all the nodes on the network, even once the

COM20020I 3V has joined the network. Once a value is placed in the Tentative ID Register, the COM20020I 3V looks

for a response to a token whose DID matches the Tentative ID Register. The software can record this information and

continue placing Tentative ID values into the register to continue building the network map. A complete network map is

only valid until nodes are added to or deleted from the network. Note that a node cannot detect the existence of the next

logical node on the network when using the Tentative ID. To determine the next logical node, the software should read

the Next ID Register.

6.6

The COM20020I 3V allows the user to better manage the operation of the network through the use of the internal

Diagnostic Status Register.

A high level on the My Reconfiguration (MYRECON) bit indicates that the Token Reception Timer of this node expired,

causing a reconfiguration by this node. After the Reconfiguration (RECON) bit of the Status Register interrupts the

microcontroller, the interrupt service routine will typically read the MYRECON bit of the Diagnostic Status Register.

Reading the Diagnostic Status Register resets the MYRECON bit. Successive occurrences of a logic "1" on the

MYRECON bit indicates that a problem exists with this node. At that point, the transmitter should be disabled so that the

entire network is not held down while the node is being evaluated.

The Duplicate ID (DUPID) bit is used before the node joins the network to ensure that another node with the same ID

does not exist on the network. Once it is determined that the ID in the Node ID Register is unique, the software should

write a logic "1" to bit 5 of the Configuration Register to enable the basic transmit function. This allows the node to join

SMSC COM20020I 3.3V Rev.E

5Mbps ARCNET (ANSI 878.1) Controller with 2K x 8 On-Chip RAM

Initialization Sequence

Improved Diagnostics

DATASHEET

Page 42

XTL.

This pulse width is used

Revision 09-11-06

COM20020I-HT SMSC, COM20020I-HT Datasheet - Page 42

COM20020I-HT

Specifications of COM20020I-HT

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