DS2120E+ [MAXIM]
Ultra3 LVD SCSI Terminator;型号: | DS2120E+ |
厂家: | MAXIM INTEGRATED PRODUCTS |
描述: | Ultra3 LVD SCSI Terminator 光电二极管 接口集成电路 |
文件: | 总10页 (文件大小:490K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
DS2120
www.maxim-ic.com
FEATURES
PIN CONFIGURATION
ꢀ Fully Compliant with Ultra3, Ultra160,
Ultra320, and Ultra2 (LVD only) SCSI
ꢀ Provides Low-Voltage Differential (LVD)
Termination for Nine Signal Line Pairs
ꢀ Zero Temperature Coefficient Termination
Resistors
28
27
26
25
24
23
22
21
20
19
18
17
16
15
1
TPWR
TPWR
VREF
R1P
2
3
R9N
R1N
4
R2P
R2N
R9P
5
R8N
HS GND
R3P
6
R8P
HS GND
R7N
7
ꢀ Autoselection of LVD Termination
ꢀ 5% Tolerance on LVD Termination
Resistance
R3N
8
R4P
R7P
9
R6N
R4N
R5P
R5N
ISO
10
11
12
13
14
R6P
ꢀ Low Power-Down Capacitance of 3pF
ꢀ Built-In Mode Change Filter/Delay
ꢀ On-Board Thermal Shutdown Circuitry
ꢀ SCSI Bus Hot Plug Compatible
DIFF_CAP
DIFFSENSE
MSTR/SLV
GND
TSSOP
1
VREF
NC
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
TPWR
NC
APPLICATIONS
Raid Systems
2
LVD
3
NC
NC
4
R1P
SCSI Host Bus Adapter Cards (HBA)
Servers
R9N
R1N
5
R9P
R2P
6
R8N
R2N
7
SCSI Cables
HS GND
HS GND
HS GND
R3P
R8P
8
Network Attached Storage (NAS)
Storage Area Networks (SANs)
HS GND
HS GND
HS GND
R7N
9
10
11
12
13
14
15
16
17
18
R3N
R4P
R7P
R4N
R5P
R5N
ISO
R6N
R6P
DIFF_CAP
DIFFSENSE
MSTR/SLV
GND
SSOP
ORDERING INFORMATION
VOLTAGE
PART
TEMP RANGE
PIN-PACKAGE
TOP MARK*
(V)
5
DS2120B
36 SSOP
DS2120
DS2120
DS2120
DS2120
0°C to +70°C
0°C to +70°C
0°C to +70°C
0°C to +70°C
0°C to +70°C
0°C to +70°C
5
DS2120B/T&R
DS2120E
36 SSOP/Tape and Reel
28 TSSOP
5
5
DS2120E+
28 TSSOP
28 TSSOP/Tape and Reel DS2120
28 TSSOP/Tape and Reel DS2120
5
DS2120E/T&R
5
DS2120E+T&R
+ Denotes lead-free/RoHS-compliant package.
* The top mark includes a "+" on lead-free packages.
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REV: 010506
DS2120
GENERAL DESCRIPTION
The DS2120 Ultra3 LVD SCSI terminator is a low-voltage differential (LVD) terminator. If the device is
connected in an LVD-only bus, the DS2120 uses LVD termination. If any single-ended (SE) or high-
voltage differential (HVD) devices are connected to the bus, the DS2120 disconnects from the bus. This
is accomplished inside the part automatically by sensing the voltage on the SCSI bus DIFFSENS line.
For the LVD termination, the DS2120 integrates two current sources with nine precision resistor strings.
Three DS2120 terminators are needed for a wide SCSI bus.
REFERENCE DOCUMENTS
Small Computer Systems Interface (SCSI-3) SCSI Parallel Interface (SPI)
Project: 0855-M, 1995
Small Computer Systems Interface (SCSI-3) SCSI Parallel Interface 2 (SPI-2) Project: 1142-M, 1998
Small Computer Systems Interface (SCSI-3) SCSI Parallel Interface 3 (SPI-3) Project: 1302-D, 1999
Small Computer Systems Interface (SCSI-3) SCSI Parallel Interface 4 (SPI-4) Project: 1365-D, 200x
Available from:
American National Standards Institute (ANSI) Phone: 212-642-4900
Global Engineering Documents 15 Inverness Way East; Englewood, CO 80112 Phone: 800-854-7179
FUNCTIONAL DESCRIPTION
The DS2120 combines LVD termination with DIFFSENSE sourcing and detection.
LVD termination is provided by a laser-trimmed resistor biased with two current sources and a common-
mode voltage source, generated from a bandgap reference of 1.25V. The configuration is a y-type
terminator with a 105Ω differential and 150Ω common-mode resistance. A fail-safe bias of 112mV is
maintained when no drivers are connected to the SCSI bus. In non-LVD mode, the resistors are isolated
from the bus.
The DIFF_CAP pin of DS2120 monitors the DIFFSENS line to determine the proper operating mode of
the device. If the voltage on the DIFF_CAP is between 0.7V and 1.9V, the device enters LVD mode after
the mode-change delay. If the voltage at the DIFF_CAP later crosses one of the thresholds, the DS2120
again changes modes after the mode-change delay. The mode-change delay is the same when changing in
or out of LVD mode. A new mode change can start anytime after a previous mode change has been
detected. These modes are the following:
•
LVD Mode: LVD termination is provided by a precision laser-trimmed resistor string with two
current sources. 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 Isolation Mode: The DS2120 identifies that there is a SE (single-ended) device on the SCSI
bus and isolates the termination pins from the bus.
HVD Isolation Mode: The DS2120 identifies that there is an HVD device on the SCSI bus and
isolates the termination pins from the bus.
When ISO is pulled high, the termination pins are isolated from the SCSI bus and VREF remains active.
The mode-change delay/filter is still active and the LVD pin continues to indicate the correct bus mode.
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DS2120
During thermal shutdown, the termination pins are isolated from the SCSI bus and VREF becomes high
impedance. The DIFFSENS driver is shut down during either of these two events. The DIFF_CAP
receiver is disabled and the LVD goes low, indicating a non-LVD condition.
To ensure proper operation, the TPWR pin should be connected to the SCSI bus TERMPWR line. As
with all analog circuitry, the TERMPWR and VDD lines should be bypassed locally. A 2.2µF capacitor
and a 0.01µF high-frequency capacitor are recommended between TPWR and ground and placed as close
as possible to the DS2120. The DS2120 should be placed as close as possible to the SCSI connector to
minimize signal and power trace length, thereby lessening input capacitance and reflections that can
degrade the bus signals.
To maintain the specified regulation, a 4.7µF capacitor is required between the VREF pin and ground of
each DS2120. 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 Figure 2.
DIFFSENS Noise Filtering: The DS2120 incorporates a digital filter to remove high-frequency
transients on the DIFFSENS control line, thereby eliminating erroneous switching between modes. This
filter eliminates the need for the external capacitor and resistor, which previously performed this function.
The external filter can be used in addition to the digital filter if the DS2120 and DS2118M or DS2119M
are to be used interchangeably.
NOTES:
1) DIFFSENS: Refers to the SCSI bus signal.
2) DIFFSENSE: Refers to the Dallas Semiconductor pin name and internal circuitry relating to
differential sensing.
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DS2120
Figure 1. Block Diagram
2.15V
LVD
Mode Change
Delay/Filter
DIFF CAP
1.30V
DIFFSENSE
0.6V
THERMAL
SHUTDOWN
ISO
CONTROL
LOGIC
MSTR/SLV
R1N
R1P
I_GEN
2.15V
REFERENCE
GENERATOR
1.30V
0.6V
R9N
R9P
1.25V
VREF
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DS2120
Figure 2. SCSI Bus Configuration
5 of 10
DS2120
PIN DESCRIPTION
PIN
NAME
FUNCTION
TSSOP
SSOP
Regulator Output Voltage. 1.25V reference in LVD
1
1
VREF
mode; must be decoupled with a 4.7µF cap.
2–5, 7–12,
18–21,
4–7, 11–16,
22–25,
RxP, RxN
HS_GND
Signal Termination. Connect to SCSI bus signal lines.
23–26
29–32
Heat Sink Ground. Internally connected to the mounting
pad. Should be connected to ground.
6, 22
8–10, 26–28
Isolation. When pulled high, terminating resistors and
13
14
17
18
ISO
biasing current sources are isolated from the SCSI bus.
GND
Signal Ground
Master/Slave. Mode select for the noncontrolling
15
16
19
20
21
36
MSTR/SLV terminator. When pulled high (MSTR), the DIFFSENS
driver is enabled.
DIFFSENSE. Output to drive the SCSI bus DIFFSENS
DIFFSENSE
line.
DIFFSENSE Capacitor. Connect a 0.1µF capacitor for
17
DIFF_CAP
TPWR
DIFFSENSE filter. Input to detect the type of device
(differential or single-ended) on the SCSI bus.
Termination Power. Connect to the SCSI TERMPWR
line and decouple with 2.2µF capacitor.
27, 28
Low-Voltage Differential. Output of DIFFSENSE
—
—
34
LVD
NC
receiver; output high indicates LVD bus operation.
2, 3, 33, 35
No Connection. Do not connect pins.
RECOMMENDED OPERATING CONDITIONS
PARAMETER
Termpower Voltage, LVD Mode
Logic 0
SYMBOL
VTPWR(LVD)
VIL
MIN
2.7
TYP
MAX UNITS NOTES
5.5
+0.8
VTPWR
0.3
V
V
-0.3
13
13
+
Logic 1
VIH
2.0
0
V
Operating Temperature
VAMB
70
°C
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DS2120
LOW-VOLTAGE DIFFERENTIAL CHARACTERISTICS
PARAMETER
SYMBOL
MIN
TYP
MAX
UNITS
NOTES
Differential Mode
RDM
100
110
Ω
Termination Resistance
Common Mode Termination
Resistance
RCM
110
190
Ω
Differential Mode Bias
Common Mode Bias
Output Capacitance
Mode-Change Delay
VDM
VCM
COUT
MCD
100
1.125
125
1.375
3
mV
V
pF
ms
2
1
1, 12
0.66
1.25
2
DC CHARACTERISTICS
PARAMETER
SYMBOL
ITPMR
IIH
MIN
TYP
MAX
UNITS
mA
NOTES
2, 3
Termpower Current
Input Leakage High
Input Leakage Low
Output Current High
Output Current Low
DIFF_CAP LVD
12
30
-1.0
µA
14, 15
14, 15
4, 6
IIL
1.0
-1.0
µA
IOH
IOL
mA
4.0
0.7
mA
5, 6
VLVDOR
VDSO
IDSH
1.9
1.4
15
V
Operating Range
DIFFSENSE Driver
Output Voltage
1.2
5
V
7, 8
DIFFSENSE Driver
Source Current
mA
µA
7, 9, 11
7, 10, 11
DIFFSENSE Driver
IDSL
20
200
Sink Current
MSTR/SLV Input Leakage
ISO Input Leakage
IMSTRSLV
IISO
-6.5
-125
+125
+6.5
µA
µA
°C
Thermal Shutdown
150
7 of 10
DS2120
REGULATOR CHARACTERISTICS
PARAMETER
VREF Line Regulation
VREF Load Regulation
SYMBOL
LIREG
MIN
TYP
1.0
1.3
MAX
2.0
3.5
UNITS
NOTES
%
%
LOREG
VREF Current Limit
ILIM
200
mA
VREF Sink Current
ISINK
200
mA
NOTES:
1) Guaranteed by design.
2) All lines open.
3) ISO = 1
4) VOUT = 2.4V
5) VOUT = 0.4V
6) LVD pin only.
7) MSTR/SLV = 1
8) IDS = 0 to 5mA
9) VDSO = 0.0V
10) VDSO = 2.75V
11) TPWR = 5.5V
12) MCD is extended by the RC time constant formed by the resistor connected from DIFFSENSE to
DIFF_CAP and the capacitor connected from DIFF_CAP to ground.
13) MSTR/SLV and ISO pins.
14) Terminator pins only.
15) DIFFCAP pin only.
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DS2120
PACKAGE INFORMATION
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package
outline information, go to www.maxim-ic.com/DallasPackInfo.)
9 of 10
DS2120
PACKAGE INFORMATION (continued)
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package
outline information, go to www.maxim-ic.com/DallasPackInfo.)
10 of 10
Maxim/Dallas Semiconductor cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim/Dallas Semiconductor product.
No circuit patent licenses are implied. Maxim/Dallas Semiconductor reserves the right to change the circuitry and specifications without notice at any time.
Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
© 2006 Maxim Integrated Products • Printed USA
The Maxim logo is a registered trademark of Maxim Integrated Products, Inc. The Dallas logo is a registered trademark of Dallas Semiconductor Corporation.
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