Dallas Semiconductor DS2105Z, DS2105S Datasheet

DS2105

SCSI Terminator

DS2105

022698 1/7

FEATURES

• Fully compliant with SCSI–1, Fast SCSI and Ultra

SCSI

• Functionally compatible to the DS21S07A, targeted

for high volume applications

• Provides active termination for nine signal lines

• Laser–trimmed 110 ohm termination resistors have

5% tolerance

• Low dropout voltage

• Power–down mode isolates termination resistors

from the bus

• Fully supports actively negated SCSI signals

• Onboard thermal shutdown circuitry

• 16–pin plastic SOIC (DS2105)

PIN ASSIGNMENT

1
2
3
4

5
6
7
8

9

DS2105Z 16–PIN SOIC (150 MIL)

TERMPWR1

R1
R2
R3

R4
R5

VREF1

GND

PD
VREF2

R9
R8
R7
R6
NC
TERMPWR2

11

12

13

14

15

16

10

1
2
3
4

5
6
7
8

9

DS2105S 16–PIN SOIC (300 MIL)

TERMPWR1

R1
R2
R3

R4
R5

VREF1

GND

PD
VREF2

NC
R9
R8
R7
R6
TERMPWR2

11

12

13

14

15

16

10

DESCRIPTION

Fast SCSI and Ultra SCSI require the use of active ter­minations at both ends of every cable segment in a
SCSI system with single–ended drivers and receivers.
The DS2105 SCSI Terminator, which is fully compliant
with these standards, enables the designer to gain the
benefits of active termination: greater immunity to volt­age drops on the TERMPWR (TERMination PoWeR)
line, enhanced high–level noise immunity, intrinsic
TERMPWR decoupling, and very low quiescent current

consumption. The DS2105, which integrates a regula­tor and nine precise switched 110 ohm termination re­sistors into a monolithic IC, is a functionally compatible
version of the DS21S07A. With relaxed output current
and termination tolerances, the DS2105 is intended for
high volume applications which require active termina­tion but not the high performance of the DS21S07A.
The DS2105 is offered in both 300 mil and 150 mil SOIC
packages.

DS2105

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FUNCTIONAL DESCRIPTION

The DS2105 consists of a bandgap reference, buffer
amplifier, and nine termination resistors (Figure 1). The
bandgap reference circuit produces a precise 2.55V
level which is fed to a buffer amplifier. The buffer pro­duces a 2.85V level and is capable of sourcing at least
24 mA into each of the termination resistors when the
signal line is low (active). When the driver for a given
signal line turns off, the terminator will pull the signal line
to 2.85V (quiescent state). T o handle actively negated
SCSI signals, the buffer can sink 200 mA, and V

REF

will
move less than 60 mV . When all lines settle in the quies­cent state, the regulator will consume about 5 mA.
When the DS2105 is put into power–down mode by
bringing PD low, the power–down circuitry will turn off
the transistors on each signal line. This will isolate the
DS2105 from the signal lines and effectively remove it

from the circuit. The power–down pin (PD

) has an inter­nal 50KΩ pull–up resistor. T o place the DS2105 into an
active state, the PD pin should be left open circuited.

T o ensure proper operation, both the TERMPWR1 and
TERMPWR2 pins must be connected to the SCSI bus
TERMPWR line and both the VREF1 and VREF2 pins
must be tied together externally. Each DS2105 requires
a 4.7 µF capacitor connected between the VREF pins
and ground. Figure 2 details a typical SCSI bus configu­ration. In an 8–bit wide SCSI bus arrangement (“A”
Cable), two DS2105’s would be needed at each end of
the SCSI cable in order to terminate the 18 active signal
lines. In a 16–bit wide SCSI bus arrangement (“P”
Cable), three DS2105’s would be needed at each end of
the SCSI cable in order to terminate the 27 active signal
lines.

DS2105 BLOCK DIAGRAM Figure 1

GND

TERMPWR1
TERMPWR2

PD

POWER

DOWN

CIRCUITRY

50K ohm

BANDGAP

REFERENCE

110 ohms

R1

R2

R3

R4

R5

R6

R7

R8

R9

VREF1
VREF2

110 ohms

110 ohms

110 ohms

110 ohms

110 ohms

110 ohms

110 ohms

110 ohms

DS2105

022698 3/7

TYPICAL SCSI BUS CONFIGURATION Figure 2

T ermination Power Line

SCSI
BUS
TRANSCEIVER

SCSI
BUS
TRANSCEIVER

SCSI
BUS
TRANSCEIVER

SCSI
BUS
TRANSCEIVER

DS2105

TERMPWR1
TERMPWR2

VREF1

VREF2

GND

R1 R2R9

DS2105

R8

TERMPWR1
TERMPWR2

VREF1

VREF2

GND

R1 R9

SCSI
CABLE

C1

+

C1

+

+

C2

NOTES:

1. C1 = 4.7 µF tantalum
C2 = 2.2 µF tantalum or 4.7 µF aluminum

2. If the DS2105 is to be embedded into a peripheral that will act as a target on a SCSI bus, it is recommended that
TERMPWR be derived from the SCSI cable, not generated locally. In this configuration, if a power failure occurs
in the peripheral, it will not affect the bus.

3. A high frequency bypass capacitor (0.1 µF recommended) can be added in parallel to C1 for applications using
fast rise/fall time drivers.