Key Features
Ultra-Fast response for Fast-20 SCSI applications
35MHz channel bandwidth
3.3V operation
Less than 3pF output capacitance
375µA Sleep-mode current
Thermally self limiting
No external compensation capacitors
Implements 8-bit or 16-bit (wide) applications
Compatible with active negation drivers
(60mA/channel)
Compatible with passive and Active terminations
Approved for use with SCSI 1, 2, 3 and UltraSCSI
Hot swap compatible
Pin-for-pin compatible with DS21S07A/2105
Block Diagrams
+
Current
Biasing
Circuit
Thermal
Limiting
Circuit
24mA Current
Limiting Circuit
Term Power
DATA OUTPUT
PIN DB (0)
1 of 9 Channels
DISABLE PIN
1.4V
2.85V
5115_01.eps
9-Line SCSI T
9-Line SCSI Ter
erminat
minator
or
35MHz Channel Bandwidt
35MHz Channel Bandwidth
h
The IMP5115 SCSI terminator is part of IMP's family of high-perfor-
mance, adaptive, non-linear mode SCSI products, which are designed to
deliver true UltraSCSI performance in SCSI applications. The low voltage
BiCMOS architectur e employed in its design offers performance superior
to older linear passive and active techniques. IMP's SCSI termination
architecture employs high-speed adaptive elements for each channel,
thereby providing the fastest response possible — typically 35MHz,
which is 100 times faster than the older linear regulator/terminator
approach used by other manufacturers. Products using this older linear
regulator appr oach have bandwidths which ar e dominated by the output
capacitor and which are limited to 500KHz (see further discussion in the
Functional Description section). This new architectur e also eliminates the
output compensation capacitor required in earlier terminator designs.
Each is approved for use with SCSI-1, -2, -3, UltraSCSI and beyond —
providing the highest performance alternative available today.
Another key improvement offered by the IMP5115 lies in its ability to
insure reliable, error-free communications even in systems which do not
adhere to recommended SCSI hardware design guidelines, such as the
use of improper cable lengths and impedances. Fr equently, this situation
is not controlled by the peripheral or host designer and, when problems
occur, they are the first to be made aware of the problem. The IMP5115
architecture is much more tolerant of marginal system integrations.
Recognizing the needs of portable and configurable peripherals, the
IMP5115 has a TTL compatible sleep/disable mode. Quiescent current
is typically 375µA in this mode, while the output capacitance is also
less than 3pF. The obvious advantage of extended battery life for
portable systems is inherent in the product's sleep-mode feature.
Additionally, the disable function permits factory-floor or production-
line configurability, reducing inventory and product-line
diversity costs. Field configurability can also be accom-
plished without physically removing components which,
often times results in field returns due to mishandling.
Reduced component count is also inherent in the IMP5115
architecture. Traditional termination techniques require
large stabilization and transient protection capacitors of up
to 20µF in value and size. The IMP5115 architecture does
not require these components, allowing all the cost savings
associated with inventory, board space, assembly, reliability,
and component costs.
1
IMP5
IMP511115
5
© 2000 IMP, Inc. Data Communications 1
DATACOMMUNICATIONS
2408-432-9100/www.impweb.com © 2000 IMP, Inc.
Pin Configuration
Ordering Information
Absolute Maximum Ratings1
8GND
1TERM POWER
D Package
9NC
7NC 10 NC
6D4 11 D5
5D3 12 D6
4D2 13 D7
3D1 14 D8
2D0 15 NC
16 DISABLE
5115__02.eps
IMP5115
8GND
1TERM POWER
DW Package
9NC
7NC 10 D5
6D4 11 D6
5D3 12 D7
4D2 13 D8
3D1 14 NC
2D0 15 NC
16 DISABLE
5115__02a.eps
IMP5115
SO-16 SOWB-16
1TERM POWER
PWP Package
7D4 14 D6
8HEAT SINK/GND 13 D5
9NC 12 HEAT SINK/GND
10GND 11 NC
6D3 15 D7
5D2 16 D8
4D1 17 NC
3D0 18 HEAT SINK/GND
2HEAT SINK/GND 19 NC
20 DISABLE
5115_02b.eps
IMP5115
TSSOP-20
rebmuNtraPegnaRerutarepmeTegakcaP
DC5115PMI0°521otC °COScitsalPnip-61
TDC5115PMI0°521otC °COScitsalPnip-61,leeRdnaepaT
WDC5115PMI0°521otC °CBWOScitsalPnip-61
TWDC5115PMI0°521otC °CBWOScitsalPnip-61,leeRdnaepaT
PWPC5115PMI0°521otC °CPOSSTcitsalPnip-02
TPWPC5115PMI0°521otC °CPOSSTcitsalPnip-02,leeRdnaepaT
3ta.10t_5115
Thermal Data
Continuous Termination Voltage . . . . . . . . . . . 10V
Continuous Output Voltage Range . . . . . . . . 0V to 5.5V
Continuous Disable Voltage Range . . . . . . . . 0V to 5.5V
Operating Junction Temperature . . . . . . . . . . 0°C to 125°C
Storage Temperature Range . . . . . . . . . . . . . . –65°C to 150°C
Lead Temperature (Soldering, 10 sec.) . . . . . . 300°C
Note: 1. Exceeding these ratings could cause damage to the device. All
voltages are with respect to Ground. Currents are positive
into, negative out of the specified terminal.
D Package:
Thermal Resistance Junction-to-Ambient, θ
JA
. . . . . . 120°C/W
DW Package:
Thermal Resistance Junction-to-Ambient, θ
JA
. . . . . . 95°C/W
PWP Package:
Thermal Resistance Junction-to-Ambient, θ
JA
. . . . . . 139°C/W
Junction Temperature Calculation: T
J
= T
A
+ (P
D
x θ
JA
).
The θ
JA
numbers are guidelines for the thermal performance of the
device/pc-board system. All of the ambient airflow is assumed.
1
IMP5
IMP511115
5
© 2000 IMP, Inc. Data Communications 3
Recommended Operating Conditions2
retemaraPlobmySniMpyTxaMstinU
egatloVrwPmreTV
MRET 0.45.5V
egatloVtupnIelbanEleveLhgiHV
HI 2V
MRET V
egatloVtupnIelbasiDleveLwoLV
LI 08.0V
egnaRerutarepmeTnoitcnuJgnitarepO 0521C°
.lanoitcnufsiecivedehthcihwrevoegnarehtetacidnisnoitidnocgnitarepodednemmoceR.2:etoN
spe.20t_5115
Electrical Characteristics
Unless otherwise specified, these specifications apply at an ambient operating temperature of T
A
=25°C. TermPwr = 4.75V. Low duty cycle
pulse testing techniques are used which maintains junction and case temperatures equal to the ambient temperature.
retemaraPlobmySsnoitidnoCniMpyTxaMstinU
egatloVhgiHtuptuOV
TUO 56.258.2V
tnerruCylppuSrwPmreTI
CC nepO=senilatadllA69Am
V5.0=senilatadllA512522
V8.0<niPelbasiD573 µA
tnerruCtuptuOI
TUO VTUO V5.0=123242Am
tnerruCtupnIelbasiDI
NI V57.4=niPelbasiD01An
V0=niPelbasiD09µA
tnerruCegakaeLtuptuOI
LO V,V8.0<niPelbasiD OV5.0=01An
edoMelbasiDniecnaticapaCC
TUO VTUO zHM1=ycneuqerF,V0=3Fp
htdiwdnaBlennahCWB53zHM
lennahCrep,tnerruCkniSnoitanimreTI
KNIS VTUO V4=06Am
spe.30t_5115
1
IMP5
IMP511115
5
4408-432-9100/www.impweb.com © 2000 IMP, Inc.
Application Information
IMP5115 Maximizes Line Current
Cable transmission theory suggests to optimize signal speed and
quality, the termination should act both as an ideal voltage refer-
ence when the line is released (deasserted) and as an ideal
current source when the line is active (asserted). Common active
terminators which consist of linear regulators in series with resis-
tors (typically 110) are a compromise. With coventional linear
terminators as the line voltage increases the amount of current
decreases linearly by the equation;
The IMP5115, with its unique new architecture, applies the maxi-
mum amount of current regardless of line voltage until the
termination high threshold (2.85V) is reached.
Acting as a near ideal line terminator, the IMP5115 closely repro-
duces the optimum case when the device is enabled. To enable the
device the Disable pin must be driven LOW. When enabled,
quiescent current is 6mA and the device will respond to line
demands by delivering 24mAon assertion and by imposing 2.85V
on de-assertion.
Disable/Sleep Mode
Disable mode places the device in a sleep state, where quiescent
current typically 375µA. When disabled, all outputs are in a high
impedance state. Sleep mode can be used for power conservation
or to remove the terminator from the SCSI chain.
An additional feature of the IMP5115 are their compatibility with
active negation drivers.
VV
RI
REF LINE
()
=.
Figure 3.
5115_03.eps
1 Meter, AWG 28 IMP5115
Receiver Driver
IMP5115
Figure 1. Receiving Waveform – 20MHz Figure 2. Driving Waveform – 20MHz
elbasiDstuptuOtnerruCtnecseiuQ
HdelbanEAm6
LecnadepmIhgiH/delbasiD573 µA
nepOdelbanEAm6
spe.40t_5115
Table 1. Power Up/ Power Down Function Table
1
IMP5
IMP511115
5
© 2000 IMP, Inc. Data Communications 5
sehcnIsretemilliM
niMxaMniMxaM
*)niP-61(OS
A350.0960.053.157.1
1A400.0010.001.052.0
B410.0810.053.064.0
C700.0010.091.052.0
D583.0493.087.910.01
E051.0851.018.310.4
eCSB050.0CSB72.1
H822.0442.097.502.6
L020.0030.015.077.0
)niP-61(BWOS
A390.0401.053.256.2
1A400.0210.001.003.0
B010.0810.052.064.0
C900.0310.032.023.0
D024.0 76.01
E592.0503.094.757.7
eCSB050.0CSB72.1
H404.0914.062.0156.01
L520.0530.046.098.0
)niP-02(POSST
A860.0870.037.199.1
B900.0510.052.08.0
C500.0800.031.022.0
D303.0113.007.709.7
E502.0212.002.583.5
FCSB520.0CSB72.1
G200.0800.050.012.0
H460.0270.036.138.1
L520.0730.056.059.0
M°0°8°0°8
P103.0113.056.709.7
CA210-SMgniwarDCEDEJ*
3ta.50t_5115
H
E
eB
D
A1
A
L
M
C
16-Pin (SO).eps
SO (16-Pin)
HE
eB
D
A1
A
L
M
C
16-Pin (SOWB).eps
SOWB (16-Pin)
TSSOP (20-Pin)
Package Dimensions
1
IMP5
IMP511115
5
2002
©
IMP, Inc.
Printed in USA
Publication #: 7006
Revision: C
Issue Date: 08/19/02
Type: Product
1
IMP5
IMP511115
5
IMP, Inc.
Corporate Headquarters
2830 N. First Street
San Jose, CA 95134-2071
Tel: 408-432-9100
Fax: 408-432-1085
e-mail: info@impinc.com
http://www.impweb.com
The IMP logo is a registered trademark of IMP, Inc.
All other company and product names are trademarks of their respective owners.