ETC S9318

SUMMIT
S9318
MICROELECTRONICS, Inc.
Nonvolatile DACPOT™ Electronic Potentiometer
With Up/Down Counter Interface
FEATURES
• Digitally Controlled Electronic Potentiometer
OVERVIEW
• 8-Bit Digital-to-Analog Converter (DAC)
– Independent Reference Inputs
– Differential Non-Linearity - ±0.5LSB max
– Integral Non-Linearity - ±1LSB max
• VOUT Value in E2PROM for Power-On Recall
– Equivalent to 256-Step Potentiometer
• Unity Gain Op Amp Drives up to 1mA
The S9318 DACPOT™ trimmer is an 8-bit nonvolatile
DAC designed to replace mechanical potentiometers.
The S9318 includes a unity-gain amplifier to buffer the
DAC output and enables VOUT to swing from rail to rail.
The DACPOT trimmer operates over a supply voltage
range of 2.7V to 5.5V.
The S9318’s simple up/down counter input provides an
ideal interface for automatic test equipment to dither and
monitor the VOUT voltage. This interface allows for quick
and consistent calibration of even the most sophisticated
systems.
• Simple Trimming Adjustment
– Up/Down Counter Style Operation
• Low Noise Operation
• “Clickless” Transitions between DAC Steps
The S9318 is a pin-compatible performance upgrade for
other industry nonvolatile potentiometers. The S9318
offers double the resolution of these devices and provides
‘clickless’ transitions of VOUT.
• No Mechanical Wearout Problem
– 1,000,000 Stores (typical)
– 100 Year Data Retention
• Operation from +2.7V to +5.5V Supply
• Low Power, 1mW max at +5V
FUNCTIONAL BLOCK DIAGRAM
VDD
VH
8-bit E2 PROM
-
UP/DN
INC
CS
Counter
&
Write
Control
AMP
8-bit
Data
Register
8-bit DAC
VOUT
+
VL
GND
2016 ILL2.1
SUMMIT MICROELECTRONICS, Inc.
•
300 Orchard City Drive, Suite 131
© SUMMIT MICROELECTRONICS, Inc. 1999
2016-04 4/24/99
•
Campbell, CA 95008
1
•
Telephone 408-378-6461
•
Fax 408-378-6586
•
www.summitmicro.com
Characteristics subject to change without notice
S9318
PIN NAMES
Symbol
INC
UP/DN
VH
PINOUT
Description
Increment Input, High to Low
Edge Trigger
Up/Down Input controlling relative
VOUT movement
V+ reference input
GND
Analog and Digital Ground
VOUT
Trimmed Voltage Output
VL
V- reference input
CS
Active low chip select input
VDD
Supply Voltage (2.7V to 5.5V)
INC
1
8
VDD
UP/DN
2
7
CS
VH
3
6
VL
GND
4
5
VOUT
2016 ILL1.1
CS
Chip Select (CS
CS) is an active low input. Whenever CS is
high the S9318 is in standby mode and consumes the
least power. This mode is equivalent to a potentiometer
that is adjusted to the required setting. When CS is low the
S9318 will recognize transitions on the INC input and will
move the VOUT either toward the VH reference or toward
the VL reference depending upon the state of the UP/DN
input.
Analog Section
The S9318 is an 8-bit, voltage output digital-to-analog
converter (DAC). The DAC consists of a resistor network
that converts an 8-bit value into equivalent analog output
voltages in proportion to the applied reference voltage.
Reference Inputs
The voltage differential between the VL and VH inputs
sets the full-scale output voltage range. VL must be equal
to or greater than ground (i.e. a positive voltage). VH must
be greater than VL and less than or equal to VDD. See
table on page 3 for guaranteed operating limits.
The host may exit an adjustment routine in two ways:
deselecting the S9318 while INC is low will not perform a
store operation (a subsequent power cycle will recall the
original data); deselecting the S9318 while INC is high will
store the current VOUT setting into nonvolatile memory.
Output Buffer Amplifier
The voltage output is a precision unity-gain follower that
can slew up to 1V/µs.
INC
Increment (INC
INC) is an edge triggered input. Whenever
CS is low and a high to low transition occurs on the INC
input, the VOUT voltage will either move toward VH or VL
depending upon the state of the UP/DN input.
Digital Interface
The interface is designed to emulate a simple up/down
counter, but instead of a parallel count output, a
ratiometric voltage output is provided.
DN
UP/Down (UP/DN
DN) is an input that will determine the VOUT
movement relative to VH and VL. When CS is low, UP/DN
is high and there is a high to low transition on INC, the
VOUT voltage will move (1/256th x VH-VL) toward VH.
When CS and UP/DN are low, and there is a high to low
transition on INC, the VOUT will move (1/256th x VH-VL)
toward VL.
2016-04 4/24/99
2
S9318
ABSOLUTE MAXIMUM RATINGS*
Temperature Under Bias
Storage Temperature
Voltage on pins with reference to GND:
Analog Inputs
Digital Inputs
Analog Outputs
Digital Outputs
Lead Solder Temperature (10 secs)
RECOMMENDED OPERATING CONDITIONS
Condition
-55°C to +125°C
-65°C to +150°C
-0.5V to VDD+.5V
-0.5V to VDD+.5V
-0.5V to VDD+.5V
-0.5V to VDD+.5V
300°C
*COMMENT
Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to
the device. These are stress ratings only, and
functional operation of the device at these or any
other conditions outside those listed in the operation sections of this specification is not implied.
Exposure to any absolute maximum rating for
extended periods may affect device performance
and reliability.
Min
Max
Temperature
-40°C
+85°C
VDD
+2.7V
+5.5V
2016 PGM T1.1
DAC DC ELECTRICAL CHARACTERISTICS
VDD = +2.7V to +5.5V, VrefH = VDD, VrefL = 0V, TA = -40°C to +85°C, unless specified otherwise
Accuracy
Symbol
Parameter
Conditions
Min.
Typ.
Max.
Units
INL
Integral Non-Linearity
ILOAD = 100µA,
-
0.5
±1
LSB
DNL
Differential Non-Linearity
ILOAD = 100µA,
Guaranteed but not tested
-
0.1
±0.5
LSB
References VH
VrefH Input Voltage
VrefL
-
VDD
V
VL
VrefL Input Voltage
Gnd
-
VrefH
V
RIN
VrefH to VrefL Resistance
-
38K
-
Ω
TCRIN
Temperature Coefficient
of RIN
VrefH to VrefL
-
600
-
ppm/°C
Analog
GEFS
Full-Scale Gain Error
DATA = FF
-
-
±1
LSB
Output
VOUTZS
Zero-Scale Output Voltage DATA = 00
0
20
mV
TCVOUT
VOUT Temperature
Coefficient
-
50
µV/°C
+1000
µA
VDD = +5, ILOAD = 50µA,
VrefH = +5V, VrefL = 0V
Guaranteed but not tested
IL
Amplifier Output Load Current
ROUT
Amplifier Output Resistance IL = 100µA
PSRR
Power Supply Rejection
eN
-
-200
VDD = +5V
VDD = +3V
Ω
Ω
-
10
20
ILOAD = 10µA
-
-
1
Amplifier Output Noise
f = 1KHz, VDD = +5V
-
90
-
THD
Total Harmonic Distortion
VIN = 1V rms, f = 1KHz
-
0.08
-
%
BW
Bandwidth - 3dB
VIN = 100mV rms
-
300
-
kHz
LSB/V
nV/
HZ
2016 PGM T3.4
2016-04 4/24/99
3
S9318
RELIABILITY CHARACTERISTICS
Symbol
Parameter
Min
VZAP
ESD Susceptibility
ILTH
Max
Unit
Test Method
2000
V
MS-883, TM 3015
Latch-Up
100
mA
JEDEC Standard 17
TDR
Data Retention
100
Years
MS-883, TM 1008
NEND
Endurance
1,000,000
Stores
MS-883, TM 1033
2016 PGM T2.0
DC ELECTRICAL CHARACTERISTICS VDD = +2.7V to +5.5V, VH = VDD, VL = 0V, Unless otherwise specified
Symbol
Parameter
Conditions
IDD
Supply Current
during store, note 1
ISB
Min
Max
Units
CS = VIL
1.2
mA
Supply Standby Current
CS = VIH
200
µA
IIH
Input Leakage Current
VIN = VDD
10
µA
IIL
Input Leakage Current, note 2
VIN = 0V
-25
µA
VIH
High Level Input Voltage
2
VDD
V
VIL
Low Level Input Voltage
0
0.8
V
2016 PGM T4.3
Notes:
1. IDD is the supply current drawn while the EEPROM is being updated. IDD does not include the current that flows through the Reference
resistor chain.
2. CS, UP/DN and INC have internal pull-up resistors of approximately 200kΩ. When the input is pulled to ground the resulting output
current will be VDD/200kΩ.
2016-04 4/24/99
4
S9318
OPERATIONAL TRUTH TABLE
INC
CS
UP/DN
DN
Operation
HITOLO
L
H
VOUT toward VH
HITOLO
L
L
VOUT toward VL
H
LOTOHI
X
Store Setting
L
LOTOHI
X
Maintain Setting, NO Store
VDD
VDD
VDD
Standby
2016 PGM T5.1
AC TIMING CHARACTERISTICS VDD = +4.5V to +5.5V
Symbol
Parameter
Min
Max
Units
tCLIL
CS to INC Setup
100
ns
tIHDC
INC High to UP/DN Change
100
ns
tDCIL
UP/DN to INC Setup
100
ns
tIL
INC Low Period
200
ns
tIH
INC High Period
200
ns
tIHCH
INC Inactive to CS Inactive
100
ns
tWP
Write Cycle Time
5
ms
tILVOUT
INC to VOUT Delay
5
µs
2016 PGM T6.1
CS
tCLIL
tIL
tIH
tIHCH
tWP
INC
tIHDC
tIHDHLD
UP/DN
tILVOUT
VOUT
2016 ILL3.1
AC TIMING DIAGRAM
2016-04 4/24/99
5
S9318
8 Pin SOIC (Type S) Package JEDEC (150 mil body width)
.050 (1.27) TYP.
.050 (1.270) TYP.
8 Places
.157 (4.00)
.150 (3.80)
.275 (6.99) TYP.
.030 (.762) TYP.
8 Places
1 .196 (5.00)
.189 (4.80)
FOOTPRINT
.061 (1.75)
.053 (1.35)
.020 (.50) x45°
.010 (.25)
.0192 (.49)
.0138 (.35)
.0098 (.25)
.004 (.127)
.05 (1.27) TYP.
.035 (.90)
.016 (.40)
.244 (6.20)
.228 (5.80)
8pn JEDEC SOIC ILL.2
ORDERING INFORMATION
S9318
S
Package
S = 8 Pin SOIC
Base Part Number
2016 ILL4.1
NOTICE
SUMMIT Microelectronics, Inc. reserves the right to make changes to the products contained in this publication in order to improve
design, performance or reliability. SUMMIT Microelectronics, Inc. assumes no responsibility for the use of any circuits described
herein, conveys no license under any patent or other right, and makes no representation that the circuits are free of patent
infringement. Charts and schedules contained herein reflect representative operating parameters, and may vary depending upon
a user’s specific application. While the information in this publication has been carefully checked, SUMMIT Microelectronics, Inc.
shall not be liable for any damages arising as a result of any error or omission.
SUMMIT Microelectronics, Inc. does not recommend the use of any of its products in life support applications where the failure or
malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety
or effectiveness. Products are not authorized for use in such applications unless SUMMIT Microelectronics, Inc. receives written
assurances, to its satisfaction, that: (a) the risk of injury or damage has been minimized; (b) the user assumes all such risks; and
(c) potential liability of SUMMIT Microelectronics, Inc. is adequately protected under the circumstances.
© Copyright 1999 SUMMIT Microelectronics, Inc.
2016-04 4/24/99
6