Datasheet G219T-S5, G219T-D3, G219R-S5, G219R-D3 Datasheet (GMT)

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

1

G219

Global Mixed-mode Technology Inc.

Ultra320 Multi-mode LVD/SE SCSI Terminator

Features



Auto-selectable multi-mode Single-Ended
or LVD Termination



Meets SCSI-1, SCSI-2, SCSI-3 SPI Ultra
(Fast-20), Ultra 2(SPI-2 LVD), Ultra160 (SPI-3
LVD), and Ultra320 (SPI-4 LVD) standards



Supports active negation



3pF channel capacitance



2.9V to 5.5V operation



Thermal protection



Hot-Swap compatible



5% tolerance on SE and LVD termination
resistance



28 pin TSSOP & 36 pin SSOP package



28 Pin TSSOP: Pin Compatible with DS2119,
UCC5672



36 Pin SSOP: Pin Compatible with DS2118,
LX5241, UCC5630 and UCC5672

Applications



Server and workstation



High-end PC



Industrial PC



Disk Array (RAID)



SCSI cable

General Description

The G219 Multi-mode LVD/SE SCSI terminator pro­vides a smooth transition into the next generation of
the SCSI Parallel Interface (SPI-4). It automatically
senses the bus, via DIFFSENS, and switches the ter­mination to either single-ended (SE) or low voltage
differential (LVD) SCSI, dependent on which type of
devices are connected to the bus. If the G219 detects
a HVD SCSI device, it switches to a high impedance
state. For a 16-bit Wide SCSI bus to be operational,
three G219 terminators are needed.

The Multi-mode terminator contains all functions re­quired to terminate and auto detect and switch modes
for SCSI Parallel Interface (SPI) bus architectures. For
the SE termination, one regulator and nine precision
110ohm resistors are used. For the LVD termination,
the G219 integrates 18 regulated supplies with nine
precision resistor strings.

Pin Configuration

NC

NC

R1+

R1-

R2-

HS/GND

HS/GND

R3+

R3-

R4+

R4-

R5+

R5-

DISCNCT

GND

TPWR

HVD

LVD

SE

R9-

R9+

R8-

R8+
HS/GND

HS/GND

HS/GND

R7-

R7+

R6-

R6+

DIFFB

DIFFSENSE

M/S

VREF

R2+

HS/GND

36Pin SSOP

G219

1

2

3

4

28

27

26

25

5

6

7

8

9

10

11

12

13

14

24

23

22

21

20

19

16

17

15

18

33

32

31

30

29

36

35

34

R1-

R1+

R2-

NC/ HS GND

R3+

R3-

R4+

R4-

R5+

R5-

DISCNCT

GND

TPWR

R9-

R9+

R8+

R8-

R7-

R6-

R6+

DIFFB

DIFFSENSE

M/S

28Pin TSSOP

VREF

R2+

TPWR

R7+

G219

1

2

3

4

28

27

26

25

5

6

7

8

9

10

11

12

13

14

24

23

22

21

20

19

18

17

16

15

NC/ HS GND

NC

NC

R1+

R1-

R2-

HS/GND

HS/GND

R3+

R3-

R4+

R4-

R5+

R5-

DISCNCT

GND

TPWR

HVD

LVD

SE

R9-

R9+

R8-

R8+
HS/GND

HS/GND

HS/GND

R7-

R7+

R6-

R6+

DIFFB

DIFFSENSE

M/S

VREF

R2+

HS/GND

36Pin SSOP

G219

1

2

3

4

28

27

26

25

5

6

7

8

9

10

11

12

13

14

24

23

22

21

20

19

16

17

15

18

33

32

31

30

29

36

35

34

R1-

R1+

R2-

NC/ HS GND

R3+

R3-

R4+

R4-

R5+

R5-

DISCNCT

GND

TPWR

R9-

R9+

R8+

R8-

R7-

R6-

R6+

DIFFB

DIFFSENSE

M/S

28Pin TSSOP

VREF

R2+

TPWR

R7+

G219

1

2

3

4

28

27

26

25

5

6

7

8

9

10

11

12

13

14

24

23

22

21

20

19

18

17

16

15

NC/ HS GND

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

2

G219

Global Mixed-mode Technology Inc.

Ordering Information

PART NUMBER TEMP. RANGE PIN-PACKAGE FEATURE

G219T-D3 0ºC-70ºC TSSOP-28 pin / Tube DISCNCT does not disable VREF

G219R-D3 0ºC-70ºC TSSOP-28 pin / Tape & Reel DISCNCT does not disable VREF

G219T-S5 0ºC-70ºC SSOP-36 pin / Tube DISCNCT does not disable VREF

G219R-S5 0ºC-70ºC SSOP-36 pin / Tape & Reel DISCNCT does not disable VREF

Note:

DIFFSENSRefers to the SCSI bus signal.
DIFFSENSERefers to the G219 pin name and internal circuitry relating to differential sensing.
DIFFBRefers to the G219 pin name and internal circuitry relating to monitoring the DIFFSENS line.

Functional Description

The G219 is used in multi-mode active termination
applications, where single ended (SE) and low voltage
differential (LVD) devices might coexist. The LVD ter­mination section consists of 18 source/sink amplifiers
(VTOP, VBOT), biasing circuitry and nine precision
resistor strings (RTOP, RMID, RBOT). The SE termi­nation section consists of a 2.85V source/sink regula­tor with 9 precision 110ohm resistor. The DIFFSENSE
section consists of a 1.3V, 5mA driver and a sensing
circuit (Figure 1)

DIFFSENS is used to identify which types of SCSI
devices are present on the bus. If the voltage on
DIFFSENS is between 0-0.5V the bus is single-ended;
if it is between 0.7-1.9V the bus is LVD; and if it is
greater than 2.4V, the bus is HVD.

The G219 DIFFB pin monitors the DIFFSENS line to
determine the proper operating mode of the device.

HVD Isolation Mode

The G219 identifies that there is
an HVD (high voltage differential) device on the SCSI
bus and isolates the termination pins from the bus.

When DISCNCT is pulled high, the termination pins
are isolated from the SCSI bus, and VREF is
grounded. During thermal shutdown, the termination
pins are isolated from the SCSI bus and VREF is
grounded. The DIFFSENSE driver is shut down during
either of these two events.

To ensure proper operation, the TPWR pin should be
connected to the SCSI bus TERMPWR line. As with all
analog circuitry, the TERMPWR lines should be by­passed locally. A 2.2µF capacitor and a 0.01µF high
frequency capacitor is recommended between TPWR
and ground and placed as close as possible to the
G219. The G219 should be placed as close as possi­ble to the SCSI connector to minimize signal and
power trace length, thereby resulting in less input ca-

pacitance and reflections which can degrade the bus
signals.

The DIFFSENSE pin can drive the SCSI DIFFSENS
line (when M/S is pulled high) to determine the SCSI
bus operating mode. The G219 switches to the termi­nation mode that is appropriate for the bus based on
the value of the DIFFSENS voltage. These modes are:

LVD mode

LVD termination is provided by a precision
resistor string with two amplifiers. This configuration
yields a 105Ω differential and 150Ω common mode
impedance. A fail safe bias of 112mV is maintained
when no drivers are connected to the SCSI bus.

SE mode

When the external driver for a given signal
line turns off, the active terminator will pull that signal
line to 2.85 volts (quiescent state). When used with an
active negation driver, the power amp can sink 22mA
per line while keeping the voltage reference in regula­tion. The terminating resistors maintain their 110Ω
value.

To maintain the specified regulation, a 4.7µF capacitor
is required between the VREF pin and ground of each
G219. A high frequency cap (0.1µF ceramic recom­mended) can also be placed on the VREF pin in ap­plications that use fast rise/fall time drivers. A typical
SCSI bus configuration is shown in Figure2.

An internal pull down resistor assures that the G219
will be terminating the bus if the DISCNCT pin is left
floating.

DIFFSENS noise filtering

The G219 incorporates a internal digital filter to re­move the noise signal on the DIFFSENS control line,
thereby eliminating erroneous switching between
modes. The external filter may be used in addition to
the internal digital filter.

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

3

G219

Global Mixed-mode Technology Inc.

Block Diagram

(Figure 1)

DIFFB

DIFFSENSE

SE

LVD

HV D

THE RMA L

SHUTDOW N

CIRCUITRY

DISCNCT

CO NT ROL

LOGIC

VREF

DIFFSENSE
CIRCUITRY

REFERENCE

GENERAT ION

VREF

110 Ohms

110 Ohms

R1-

R9-

VTOP1

RTO P1

RMID1

RBO T1

R1+

R1-

R9-

R9+

R1-

R9-

SE

GND

DRIV ER

VBOT1

R1+

R9+

36pin SSOP only

+
_

+
_

(

)

X 9

X 9

RTO P9

RMID9

RBO T9

M/S

DIFFB

DIFFSENSE

SE

LVD

HV D

THE RMA L

SHUTDOW N

CIRCUITRY

DISCNCT

CO NT ROL

LOGIC

VREF

DIFFSENSE
CIRCUITRY

REFERENCE

GENERAT ION

VREF

110 Ohms

110 Ohms

R1-

R9-

VTOP1

RTO P1

RMID1

RBO T1

R1+

R1-

R9-

R9+

R1-

R9-

SE

GND

DRIV ER

VBOT1

R1+

R9+

36pin SSOP only

+_+
_

+_+
_

(

)

X 9

X 9

RTO P9

RMID9

RBO T9

M/S

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

4

G219

Global Mixed-mode Technology Inc.

SCSI Bus Configuration

(Figure 2)

G219 G219

G219

G219

TPWR
M/S

DISCNCT

DIFFSENSE

CONTROL LINES (9)

DIFFSENS

TPWR

TERMPWR

20K

VREF DIFFB

0.1µF

DIFFSENSE
DIFFB VREF

TERMPWR

TPWR

M/S

DISCNCT

DIFFB VREF

TPWR

DIFFB VREF

TPWR

DATA LINES (9)

VREF DIFFB

TPWR

VREF DIFFB

DATA LINES (9)

G219

G219

2.2µF

2.2µF

2.2µF

2.2µF

2.2µF

2.2µF

M/S

DISCNCT

M/S

DISCNCT

M/S

DISCNCT

M/S

DISCNCT

4.7µF

4.7µF

4.7µF

4.7µF

4.7µF

4.7µF

0.1µF

20K

G219 G219

G219

G219

TPWR
M/S

DISCNCT

DIFFSENSE

CONTROL LINES (9)

DIFFSENS

TPWR

TERMPWR

20K

VREF DIFFB

0.1µF

DIFFSENSE
DIFFB VREF

TERMPWR

TPWR

M/S

DISCNCT

DIFFB VREF

TPWR

DIFFB VREF

TPWR

DATA LINES (9)

VREF DIFFB

TPWR

VREF DIFFB

DATA LINES (9)

G219

G219

2.2µF

2.2µF

2.2µF

2.2µF

2.2µF

2.2µF

M/S

DISCNCT

M/S

DISCNCT

M/S

DISCNCT

M/S

DISCNCT

4.7µF

4.7µF

4.7µF

4.7µF

4.7µF

4.7µF

0.1µF

20K

G219 G219

G219

G219

TPWR
M/S

DISCNCT

DIFFSENSE

CONTROL LINES (9)

DIFFSENS

TPWR

TERMPWR

20K

VREF DIFFB

0.1µF

DIFFSENSE
DIFFB VREF

TERMPWR

TPWR

M/S

DISCNCT

DIFFB VREF

TPWR

DIFFB VREF

TPWR

DATA LINES (9)

VREF DIFFB

TPWR

VREF DIFFB

DATA LINES (9)

G219

G219

2.2µF

2.2µF

2.2µF

2.2µF

2.2µF

2.2µF

M/S

DISCNCT

M/S

DISCNCT

M/S

DISCNCT

M/S

DISCNCT

4.7µF

4.7µF

4.7µF

4.7µF

4.7µF

4.7µF

0.1µF

20K

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

5

G219

Global Mixed-mode Technology Inc.

Recommended Operating Conditions

PARAMETER SYMBOL MIN TYP MAX UNITS

V

tpwr

(SE) 4.0 5 5.5

Termpower Voltage

V

tpwr

(LVD) 2.9 5 5.5

V

Logic 0 Vil -0.3 +0.8 V

Logic 1 Vih 2.0 V

tpwr

+0.3 V

Operating Temperature T

amb

0 70 °C

Electrical Characteristics

Unless otherwise specified, these specifications apply over the operating ambient temperature range of
0°C

≤≤≤≤

T

A

≤≤≤≤

70°C.

PARAMETER SYMBOL CONDITION MIN TYP MAX UNITS

LVD Terminator Section

Differential Mode Termination Resistance Rdm 100 105 110 Ohms

Common Mode Termination Resistance Rcm 110 150 190 Ohms

Differential Mode Bias Vdm All lines Open 100 112 125 mV

Common Mode Bias Vcm 1.125 1.25 1.375 V

Single Ended Terminator Section

Output Capacitance Cout Note 3 pF

SE Termination Resistance Rse Vline = 0-3.0 volts 104.5 110 115.5 Ohms

SE Voltage Reference Vref 2.79 2.85 2.93 Volts

SE output Current Iose Vline = 0.2 volts 25.4 mA

Regulator Section

Line Regulation LI

REG

1.0 2.5 %

Load Regulation LO

REG

1.3 3.5 %

Current Limit I

LIM

350 mA

Sink Current I

SINK

200 mA

DC Section

SE mode (No Load) 4

Termpower Current I

tpmr

LVD mode (No Load) 20

mA

Input Leakage High Iih -1.0 µA

Input Leakage Low Iil 1.0 µA

Output Current High Ioh V

out

= 2.4 volts; SE/LVD/HVD Pins only -1.0 mA

Output Current Low Iol V

out

=0.4 volts; SE/LVD/HVD Pins only 4.0 mA

DIFFSENS Section

DIFFSENS SE Operating Range V

seor

-0.3 0.5 V

DIFFSENS LVD Operating Range V

lvdor

0.7 1.9 V

DIFFSENS HVD Operating Range V

hvdor

2.4 V

tpwr

+0.3 V

DIFFSENSE Driver Output Voltage V

dso

M/S=1; I

ds

= 0-5mA 1.2 1.4 V

DIFFSENSE Driver Source Current I

dsh

M/S = 1; V

dso

=0V 5 15 mA

DIFFSENSE Driver Sink Current I

dsl

M/S=1; V

dso

=2.75V 20 200 µA

Note: Guaranteed by Design.

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

6

G219

Global Mixed-mode Technology Inc.

Typical Operating Characteristics

Common Mode Bias Vcm -

Temperature

1.125

1.175

1.225

1.275

1.325

1.375

-20 0 20 40 60 80 100
Temperature(ºC)

Vcm(V)

V

tpwr

=2.8V

V

tpwr

=5.8V

Common Mode Bias Vcm - Vtpwr

1.125

1.175

1.225

1.275

1.325

1.375

2.5 3.5 4.5 5.5
Vtpwr

Vcm(V)

T=80ºC

T=-10ºC

Common Mode Termination Resistance

Rcm - Vtpwr @Temperature=24ºC

110

120

130

140

150

160

170

180

190

2.5 3.5 4.5 5.5

Vtpwr

Rcm(Ohm)

Common Mode Termination Resistance

Rcm - Temperature@Vtpwr=5V

110

120

130

140

150

160

170

180

190

-20 0 20 40 60 80 100
Temperature(ºC)

Rcm(Ohm)

Differential Mode Termination

Resistance Rdm - Vtpwr

100

101

102

103

104

105

106

107

108

109

110

2.5 3.5 4.5 5.5
Vtpwr

Rdm(Ohm)

T=80ºC

T=-10ºC

Differential Mode Termination

Resistance Rdm - Temperature

100

102

104

106

108

110

-20 0 20 40 60 80 100
Temperature(ºC)

Rdm(Ohm)

V

tpwr

=2.8V

V

tpwr

=5.8V

Differential Mode Bias Vdm -

Temperature@Vtpwr=5V

0.1

0.105

0.11

0.115

0.12

0.125

-20 0 20 40 60 80 100

Temperature(ºC)

Vdm(V)

Differential Mode Bias Vdm - Vtpwr

0.1

0.105

0.11

0.115

0.12

0.125

2.5 3.5 4.5 5.5
Vtpwr

Vdm(V)

T=-10ºC

T=80ºC

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

7

G219

Global Mixed-mode Technology Inc.

SE Termination Resistance Rse -

Vtpwr @T=24ºC;Vline=0V

105

107

109

111

113

115

3.5 4.5 5.5

Vtpwr

Rse(Ohm)

SE Termination Resistance Rse -

Vtpwr @Vline=0V

105

106

107

108

109

110

111

112

113

114

115

-20 0 20 40 60 80 100

Temperature(ºC)

Rse(Ohm)

SE Termination Resistance Rse -

Vtpwr @Vtpwr=5V;T=24ºC

105

107

109

111

113

115

0123

Vline

Rse(Ohm)

Vref - Ivref@Vtpwr=5V

2.79

2.81

2.83

2.85

2.87

2.89

2.91

2.93

-250 -150 -50 50 150 250 350

Ivref(mA)

Vref

T=80ºC

T=-10ºC

Vref - Temperature@Ivref=0mA

2.79

2.81

2.83

2.85

2.87

2.89

2.91

2.93

-20 0 20 40 60 80 100

Temperature(ºC)

Vref

V

tpwr

=5.8V

V

tpwr

=3.8V

Vref - Vtpwr@T=24ºC

2.79

2.81

2.83

2.85

2.87

2.89

2.91

2.93

3.5 4.5 5.5

Vtpwr

Vref

I

vref

=360mA

I

vref

=-200mA

I

vref

=0mA

V

tpwr

=3.8V

V

tpwr

=5.8V

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

8

G219

Global Mixed-mode Technology Inc.

Pin Description

(for 28pin TSSOP)

PIN SYMBOL DESCRIPTION

1 VREF

Reference Voltage.

2.85-volt reference in SE mode and 1.25V in LVD mode; must be connected to a

4.7µF capacitor.

2-5,7-12,

18-21, 23-26

Rx+, Rx-

Signal Termination.

(X=1,2,3,…..9)
Rx+: Ground line for single-ended or positive line for differential applications for the SCSI bus.
Rx-: Signal line/active line for single-ended or negative line in differential applications for the SCSI
bus.

6,22 NC/ HS GND

No Connect/Heat Sink Ground.

Should be grounded for heat sinking purpose

13 DISCNCT

Disconnec

t. When pulled high, the G219 isolates its bus pins (Rx+, Rx-) from the SCSI bus.

14 GND

Ground.

Terminator ground pin. Connected to ground.

15 M/S

Master/slave.

Used to select which terminator is the controlling device. M/S pin high enables the

DIFFSENSE driver.

16 DIFFSENSE Output to drive the SCSI bus DIFFSENS line.

17 DIFFB

DIFFB pin should be connected to a 0.1µF capacitor to GND and 20k resistor to SCSI/Bus
DIFFSENS line. An input pin to detect the type of device (differential or single-ended) on the SCSI
bus.

27,28 TPWR

Terminator Power.

Connect to the SCSI TERMPWR line and de-couple with a 2.2µF capacitor.

*The VREF keeps the level at 2.85 volt, despite the DISCNCT pin is asserted or not; even the termination mode is changed.

(36pin SSOP)

PIN SYMBOL DESCRIPTION

1 VREF*

Reference Voltage.

2.85-volt reference; must be connected to a 4.7µF capacitor.

2,3 NC

No Connect.

Do not connect these pins.

4-7,11-16,

22-25,

29-32

Rx+

Rx-

Signal Termination.

(X=1,2,3,…..9)
Rx+: Ground line for single-ended or positive line for differential applications for the SCSI bus.
Rx-: Signal line/active line for single-ended or negative line in differential applications for the SCSI bus.

8, 9,10,26,

27,28

HS/GND

Heat Sink Ground.

Connect to large area PC board traces to increase power dissipation capabil-

ity.

17 DISCNCT

Disconnec

t. When pulled high, the G219 isolates its bus pins (Rx+, Rx-) from the SCSI bus.

18 GND

Ground.

Terminator ground pin. Connected to ground.

19 M/S

Master/slave.

Used to select which terminator is the controlling device. M/S pin high enables the

DIFFSENSE driver.

20 DIFFSENSE Output to drive the SCSI bus DIFFSENS line.

21 DIFFB

DIFFB pin should be connected to a 0.1µF capacitor to GND and 20k resistor to SCSI/Bus
DIFFSENS line. An input pin to detect the type of device (differential or single-ended) on the SCSI
bus.

33 SE

Single ended mode indicator.

It is HIGH when terminator is operating in SE mode.

34 LVD

Low Voltage Differential mode indicator.

It is HIGH when terminator is operating in LVD mode.

35 HVD

High Voltage Differential mode indicator.

It is HIGH when terminator is operating in HVD mode

36 TPWR

Terminator Power.

Connect to SCSI bus TERMPWR line and decouple with 2.2µF capacitor.

*The VREF keeps the level at 2.85 volt, despite the DISCNCT pin is asserted or not; even the termination mode is changed.

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

9

G219

Global Mixed-mode Technology Inc.

Package Information

(28pin TSSOP)

Note:

1. Package body sizes exclude mold flash protrusions or gate burrs

2. Tolerance ±0.1mm unless otherwise specified

3. Coplanarity : 0.1mm

4. Controlling dimension is in millimeter. Converted inch dimensions are not necessarily accurate.

5. Follow JEDEC MO-153

DIMENSION IN MM DIMENSION IN INCH

SYMBOL

MIN. NOM. MAX. MIN. NOM. MAX.

A ----- ----- 1.20 ----- ----- 0.048

A1 0.05 ----- 0.15 0.002 ----- 0.006

A2 0.80 1.00 1.05 0.031 0.039 0.041

b 0.19 ----- 0.30 0.007 ----- 0.012

C 0.09 ----- 0.20 0.004 ----- 0.008

D 9.60 9.70 9.80 0.378 0.382 0.386

E ----- 6.40 ----- ----- 0.252 -----

E1 4.30 4.40 4.50 0.169 0.173 0.177

e ----- 0.65 ----- ----- 0.026 -----

L 0.45 0.60 0.75 0.018 0.024 0.030

y ----- ----- 0.10 ----- ----- 0.004

θ

0º ----- 8º 0º ----- 8º

28

E1

E

D

1

b

A

A1

A2

C

L

θ

e

Ver: 1.3

Jul 19, 2002

TEL: 886-3-5788833

http://www.gmt.com.tw

10

G219

Global Mixed-mode Technology Inc.

36 pin SSOP

DIMENSION IN MM DIMENSION IN INCH

SYMBOL

MIN. TYP. MAX. MIN. TYP. MAX.

A 2.413 2.591 2.794 0.095 0.102 0.110

A1 0.203 0.305 0.406 0.008 0.012 0.016

b 0.300 0.450 0.012 0.018

c 0.127 0.254 0.005 0.010

D 15.748 15.875 16.002 0.620 0.625 0.630

e 0.800 BASIC 0.032 BASIC

E 10.033 10.668 0.395 0.420

E1 7.391 7.493 7.595 0.291 0.295 0.289

h 0.381 0.635 0.015 0.025

L 0.508 1.016 0.020 0.040

θ

0 8 0 8

Taping Specification

GMT Inc. d oes not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and GMT Inc. reserves the right at any time without notice to change said circuitry and specifications.

h x 45

°

C

L

θ

E1

E

SEATING PLANE

0.004

C

D

b

e

A

A1

Feed Direction

Typical SSOP, TSSOP Package Orientation

Feed Direction

Typical SSOP, TSSOP Package Orientation