TI REF5025SKGD1

REF5025-HT
www.ti.com
SBOS502D – SEPTEMBER 2009 – REVISED APRIL 2012
LOW NOISE, VERY LOW DRIFT, PRECISION VOLTAGE REFERENCE
Check for Samples: REF5025-HT
FEATURES
1
•
•
•
2
Low Temperature Drift: 40 ppm/°C
Low Noise: 3 μVPP/V
High Output Current: ±7 mA
DNC
VIN
TEMP
GND
Down-Hole Drilling
High Temperature Environments
•
•
•
•
(1)
8
2
7
DNC
NC
VOUT
TRIM/NR
Controlled Baseline
One Assembly/Test Site
One Fabrication Site
Available in Extreme (–55°C/210°C)
Temperature Range (1)
Extended Product Life Cycle
Extended Product-Change Notification
Product Traceability
Texas Instruments high temperature products
utilize highly optimized silicon (die) solutions
with design and process enhancements to
maximize performance over extended
temperatures.
3
6
4
5
DNC = Do not connect
NC = No internal connection
SUPPORTS EXTREME TEMPERATURE
APPLICATIONS
•
•
•
•
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APPLICATIONS
•
•
HKJ PACKAGE
(TOP VIEW)
HKQ PACKAGE
(TOP VIEW)
DNC
8
1
NC
VIN
VOUT
TRIM/NR
5
DNC
TEMP
4
GND
HKQ as formed or HKJ mounted dead bug
Custom temperature ranges available
DESCRIPTION
The REF5025 is a low-noise, low-drift, very high precision voltage reference. This reference is capable of both
sinking and sourcing, and is very robust with regard to line and load changes.
Temperature drift (40 ppm/°C) from –55°C to 210°C is achieved using proprietary design techniques. These
features combined with very low noise make the REF5025 ideal for use in down-hole drilling applications.
1
2
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
All trademarks are the property of their respective owners.
PRODUCTION DATA information is current as of publication date.
Products conform to specifications per the terms of the Texas
Instruments standard warranty. Production processing does not
necessarily include testing of all parameters.
Copyright © 2009–2012, Texas Instruments Incorporated
REF5025-HT
SBOS502D – SEPTEMBER 2009 – REVISED APRIL 2012
www.ti.com
This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled with
appropriate precautions. Failure to observe proper handling and installation procedures can cause damage.
ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more
susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.
BARE DIE INFORMATION
DIE THICKNESS
BACKSIDE FINISH
BACKSIDE
POTENTIAL
BOND PAD
METALLIZATION COMPOSITION
BOND PAD
THICKNESS
15 mils.
Silicon with backgrind
GND
Al-Cu (0.5%)
598 nm
½
2040 mm
12
10
9
8
6
7
|
1676 µm
11
½
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½
38 mm
2
1
3
5
4
0.0
½
|
38 mm
0.0
Table 1. Bond Pad Coordinates in Microns
DISCRIPTION
PAD NUMBER
X min
Y min
X max
Y max
NC
1
35.45
46.55
111.45
122.55
NC
2
496.75
56.55
572.75
132.55
VIN
3
607.45
56.55
683.45
132.55
NC
4
937.9
39.4
1013.9
115.4
TEMP
5
1660.1
47.2
1736.1
123.2
GND
6
1770.9
38.85
1847.05
115
GND
7
1877.1
59.6
2016.8
135.6
TRIM/NR
8
1904.65
1553.4
1980.65
1629.4
NC
9
1782.15
1553.4
1858.15
1629.4
VOUT
10
1080.2
1559.85
1219.9
1636
VOUT
11
880.25
1543.55
956.25
1619.55
NC
12
35.45
1553.45
111.45
1629.45
ORDERING INFORMATION (1)
TA
–55°C to 210°C
(1)
2
PACKAGE
ORDERABLE PART NUMBER
KGD (bare die)
REF5025SKGD1
TOP-SIDE MARKING
NA
HKJ
REF5025SHKJ
REF5025SHKJ
HKQ
REF5025SHKQ
REF5025SHKQ
For the most current package and ordering information, see the Package Option Addendum at the end of this document, or see the TI
web site at www.ti.com.
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Copyright © 2009–2012, Texas Instruments Incorporated
REF5025-HT
www.ti.com
SBOS502D – SEPTEMBER 2009 – REVISED APRIL 2012
ABSOLUTE MAXIMUM RATINGS (1)
UNIT
Input Voltage
18
V
Output Short-Circuit
30
mA
Operating Temperature Range
–55 to 210
°C
Storage Temperature Range
–65 to 210
°C
210
°C
Human Body Model (HBM)
3000
V
Charged Device Model (CDM)
1000
V
Junction Temperature (TJ max)
ESD Rating
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(1)
Stresses above these ratings may cause permanent damage. Exposure to absolute maximum conditions for extended periods may
degrade device reliability. These are stress ratings only, and functional operation of the device at these or any other conditions beyond
those specified is not implied.
THERMAL CHARACTERISTICS FOR HKJ OR HKQ PACKAGE
over operating free-air temperature range (unless otherwise noted)
PARAMETER
θJC
MIN
TYP
to ceramic side of case
Junction-to-case thermal resistance
to top of case lid (metal side of case)
MAX
UNIT
5.7
°C/W
13.7
ELECTRICAL CHARACTERISTICS
TA = 25°C, ILOAD = 0, CL = 1 μF, VIN = 3.25 V to 18 V (unless otherwise noted).
PARAMETER
CONDITIONS
TA = –55 to 125°C
MIN
TYP
MAX
TA = 210°C
MIN
TYP
UNIT
MAX
OUTPUT VOLTAGE (2.5 V)
Output voltage
VOUT
Initial accuracy (1)
NOISE
2.5
VIN = 3.25 V
Output voltage noise
0
f = 0.1 Hz to 10 Hz
0.9
2.5
V
0.14
%
μVPP
7.5
OUTPUT VOLTAGE
TEMPERATURE DRIFT
Output voltage
temperature drift (2)
dVOUT/dT
Calculated from
–55°C to 210°C
40
ppm/°C
LINE REGULATION
Line regulation
dVOUT/dVIN
From VIN = 3.25 V to VIN = 18 V
1
2.2
63
215
ppm/V
–7 mA < ILOAD < 10 mA, VIN = 3.25 V
20
50
20
75
ppm/mA
VOUT = 0 V
25
LOAD REGULATION
Load regulation
dVOUT/dILOAD
SHORT-CIRCUIT CURRENT
Short-circuit current
TEMP PIN
Voltage output
ISC
At TA = 25°C
Temperature sensitivity (3)
11
mA
575
mV
2.64
mV/°C
200
μs
TURN-ON SETTLING TIME
To 0.1% with CL = 1 μF
Turn-on settling time
POWER SUPPLY
Supply voltage
VS
3.25
Quiescent current
18
0.8
1.2
3.25
18
V
1.5
mA
TEMPERATURE RANGE
Specified range
–55°C to 210°C
Operating range
–55°C to 210°C
(1)
(2)
(3)
Refer to Figure 5 of the TYPICAL CHARACTERISTICS.
Refer to Figure 4 of the TYPICAL CHARACTERISTICS.
Refer to Figure 10 of the TYPICAL CHARACTERISTICS.
Copyright © 2009–2012, Texas Instruments Incorporated
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Estimated Life (Hours)
1000000
Electromigration Fail Mode
10000
1000
110
130
150
170
190
210
230
Continous T J (°C)
Figure 1. REF5025SKGD1 Operating Life Derating Chart
Notes:
1. See datasheet for Absolute Maximum and minimum Recommended Operating Conditions.
2. Silicon operating life design goal is 10 years at 105°C junction temperature ( does not include package
interconnect life).
4
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REF5025-HT
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SBOS502D – SEPTEMBER 2009 – REVISED APRIL 2012
TYPICAL CHARACTERISTICS
TA = 25°C, ILOAD = 0, VS = 3.25 V (unless otherwise noted).
TEMPERATURE DRIFT
(–40°C to 125°C)
7.50
8.00
M o re
OUTPUT VOLTAGE
INITIAL ACCURACY
(AT 210°C)
6.50
TEMPERATURE DRIFT
(–55°C to 210°C)
7.00
Figure 3.
0 .6
Drift (ppm/°C)
Figure 2.
Figure 4.
Copyright © 2009–2012, Texas Instruments Incorporated
Output Initial Accuracy (%)
0 .4
0 .3
0 .2
0 .1
0
-0 .1
-0 .2
-0 .3
-0 .4
-0 .5
-0 .6
50
54
42
Drift (ppm/°C)
46
38
30
34
26
18
22
14
10
6
2
Population (%)
P o p u la tio n (% )
Drift (ppm/°C)
0 .5
5.50
6.00
4.50
5.00
3.50
4.00
2.50
3.00
1.50
2.00
0.50
1.00
0
0
0.25
0.50
0.75
1.00
1.25
1.50
1.75
2.00
2.25
2.50
2.75
3.00
3.25
3.50
3.75
4.00
4.25
4.50
4.75
5.00
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Population (%)
Population (%)
TEMPERATURE DRIFT
(0°C to 85°C)
Figure 5.
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TYPICAL CHARACTERISTICS (continued)
TA = 25°C, ILOAD = 0, VS = 3.25 V (unless otherwise noted).
POWER-SUPPLY REJECTION RATIO
vs
FREQUENCY
160
0.4
140
0.3
120
0.2
100
PSRR (dB)
0.5
0.1
0
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Output Voltage Accuracy (%)
OUTPUT VOLTAGE ACCURACY
vs
TEMPERATURE
80
60
40
-0.1
20
-0.2
-55
25
125
180
210
0
Temperature (°C)
0.8
10
100
1k
Frequency (Hz)
Figure 6.
Figure 7.
DROPOUT VOLTAGE
vs
LOAD CURRENT
OUTPUT VOLTAGE
vs
LOAD CURRENT
10k
100k
2.514
+125°C
0.7
55°C
2.512
25°C
+25°C
0.5
2.508
Output Voltage (V)
Dropout Voltage (V)
2.51
0.6
-40°C
0.4
0.3
2.506
2.504
2.502
2.5
0.2
210°C
2.498
0.1
2.496
0
2.494
-15
10
15
-5
0
5
10
L o ad C u rren t (m A)
Figure 8.
Figure 9.
TEMP PIN OUTPUT VOLTAGE
vs
TEMPERATURE
QUIESCENT CURRENT
vs
TEMPERATURE
1200
1
1100
0.9
1000
0.8
0.7
900
0.6
800
0.5
700
0.4
0.3
600
-75
-50
-25
0
25
50
75
100 125 150 175 200 225
Temperature (°C)
Figure 10.
6
-10
IQ (µA)
Temp Pin Output Voltage (V)
1.1
-5
0
5
Load Current (mA)
-10
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-75
-50 -25
0
25
50
75
100 125 150 175 200 225
Temperature (°C)
Figure 11.
Copyright © 2009–2012, Texas Instruments Incorporated
REF5025-HT
www.ti.com
SBOS502D – SEPTEMBER 2009 – REVISED APRIL 2012
TYPICAL CHARACTERISTICS (continued)
TA = 25°C, ILOAD = 0, VS = 3.25 V (unless otherwise noted).
QUIESCENT CURRENT
vs
INPUT VOLTAGE
LINE REGULATION
vs
TEMPERATURE
1400
70
60
Line Regulation (ppm/V)
1300
210°C
1200
1000
900
25°C
800
30
20
10
0
–55°C
700
40
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IQ (µA)
1100
50
-10
600
-75
2
3
4
5
6
7
8
9
-50
-25
0
10 11 12 13 14 15 16 17 18
25
50
75
100 125 150 175 200 225
Temperature (°C)
V IN (V)
25
Figure 13.
SHORT-CIRCUIT CURRENT
vs
TEMPERATURE
NOISE
Sourcing
20
15
1mV/div
Short-Circuit Current (mA)
30
Figure 12.
Sinking
10
5
0
-75
-50
-25
0
25
50
75
100 125 150
175 200
1s/div
Temperature (°C)
Figure 14.
Figure 15.
STARTUP
(REF5025, CL = 1 μF)
STARTUP
(REF5025, CL = 10 μF)
VIN
5V/div
VIN
2V/div
1V/div
VOUT
VOUT
1V/div
40ms/div
Figure 16.
Copyright © 2009–2012, Texas Instruments Incorporated
400ms/div
Figure 17.
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TYPICAL CHARACTERISTICS (continued)
TA = 25°C, ILOAD = 0, VS = 3.25 V (unless otherwise noted).
LOAD TRANSIENT
(CL = 1 μF, IOUT = 1 mA)
LOAD TRANSIENT
(CL = 1 μF, IOUT = 10 mA)
ILOAD
+1mA
ILOAD
10mA/div
+10mA
+10mA
-1mA
-1mA
1mA/div
-10mA
VOUT
VOUT
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5mV/div
2mV/div
20ms/div
20ms/div
Figure 18.
Figure 19.
LOAD TRANSIENT
(CL = 10 μF, IOUT = 1 mA)
LOAD TRANSIENT
(CL = 10 μF, IOUT = 10 mA)
ILOAD
+1mA
ILOAD
10mA/div
-10mA
VOUT
VOUT
5mV/div
-10mA
-1mA
-1mA
1mA/div
+10mA
2mV/div
100ms/div
100ms/div
Figure 20.
Figure 21.
LINE TRANSIENT
(CL = 1 μF)
LINE TRANSIENT
(CL = 10 μF)
500mV/div
VIN
VIN
500mV/div
5mV/div
VOUT
VOUT
5mV/div
20ms/div
Figure 22.
8
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100ms/div
Figure 23.
Copyright © 2009–2012, Texas Instruments Incorporated
REF5025-HT
www.ti.com
SBOS502D – SEPTEMBER 2009 – REVISED APRIL 2012
APPLICATION INFORMATION
The REF5025 is a low-noise, precision bandgap
voltage reference that is specifically designed for
excellent initial voltage accuracy and drift. Figure 24
shows a simplified block diagram of the REF5025.
VIN
REF5025
The REF5025 provides a very accurate voltage
output. However, VOUT can be adjusted to reduce
noise and shift the output voltage from the nominal
value by configuring the trim and noise reduction pin
(TRIM/NR, pin 5). The TRIM/NR pin provides a ±15mV adjustment of the device bandgap, which
produces a ±15-mV change on the VOUT pin.
Figure 26 shows a typical circuit using the TRIM/NR
pin to adjust VOUT. When using this technique, the
temperature coefficients of the resistors can degrade
the temperature drift at the output.
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R2
R1
aT
(10mA
at +25°C)
TEMP
aT
USING THE TRIM/NR PIN
VOUT
R4
10kW
+VSUPPLY
R3
TRIM/NR
1.2V
R5
60kW
REF5025
1kW
DNC
DNC
VIN
NC
VOUT
TEMP
GND
GND TRIM/NR
10kW
470W
Figure 24. REF5025 Simplified Block Diagram
1kW
BASIC CONNECTIONS
Figure 25 shows the typical connections for the
REF5025. A supply bypass capacitor ranging
between 1 μF to 10 μF is recommended. A 1-μF to
50-μF, low-ESR output capacitor (CL) must be
connected from VOUT to GND. The ESR value should
be less than or equal to 1.5 Ω. The ESR minimizes
gain peaking of the internal 1.2-V reference and thus
reduces noise at the VOUT pin.
+VSUPPLY
Figure 26. VOUT Adjustment Using TRIM/NR Pin
The REF5025 allows access to the bandgap through
the TRIM/NR pin. Placing a capacitor from the
TRIM/NR pin to GND (as Figure 27 illustrates) in
combination with the internal 1-kΩ resistor creates a
low-pass filter that lowers the overall noise measured
on the VOUT pin. A capacitance of 1 μF is suggested
for a low-pass filter with a corner frequency of
14.5 Hz. Higher capacitance results in a lower cutoff
frequency.
REF5025
DNC
CBYPASS
1mF to 10mF
VIN
TEMP
DNC
+VSUPPLY
NC
VOUT
GND TRIM/NR
REF5025
VOUT
CL
1mF to 50mF
DNC
VIN
TEMP
DNC
NC
VOUT
GND TRIM/NR
Figure 25. Basic Connections
SUPPLY VOLTAGE
C1
1mF
Figure 27. Noise Reduction Using TRIM/NR Pin
The REF5025 features extremely low dropout
voltage. For loaded conditions, a typical dropout
voltage versus load plot is shown in Figure 8 of
Typical Characteristics.
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TEMPERATURE DRIFT
+V
The REF5025 is designed for minimal drift error,
which is defined as the change in output voltage over
temperature. The drift is calculated using the box
method, as described by the following equation:
Drift +
ǒV V
OUT
Ǔ
* V OUTMIN
Temp Range
OUTMAX
VTEMP
2.6mV/°C
106(ppm)
TEMP
(2)
(2)
This pin indicates general chip temperature, accurate
to approximately ±15°C. Although it is not generally
suitable for accurate temperature measurements, it
can be used to indicate temperature changes or for
temperature compensation of analog circuitry. A
temperature change of 30°C corresponds to an
approximate 79-mV change in voltage at the TEMP
pin.
The TEMP pin has high output impedance (see
Figure 24). Loading this pin with a low-impedance
circuit induces a measurement error; however, it does
not have any effect on VOUT accuracy. To avoid
errors caused by low-impedance loading, buffer the
TEMP pin output with a suitable low-temperature drift
op amp as shown in Figure 28.
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VOUT
GND TRIM/NR
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= 509 mV + 2.64 × T(°C)
(For –55°C to 125°C only. Refer to Figure 10 of the
TYPICAL CHARACTERISTICS for 125°C to 210°C.)
10
OPA
DNC
NOTE: (1) Low drift op amp
The temperature output terminal (TEMP, pin 3)
provides a temperature-dependent voltage output
with approximately 60-kΩ source impedance. As
seen in Figure 10, the output voltage follows the
nominal relationship:
PIN
VIN
(1)
(1)
TEMPERATURE MONITORING
VTEMP
REF5025
DNC
Figure 28. Buffering the TEMP Pin Output
POWER DISSIPATION
The REF5025 is specified to deliver current loads of
±10 mA over the specified input voltage range. The
temperature of the device increases according to the
equation:
TJ = TA + PD × θJA
(3)
(3)
Where:
TJ = Junction temperature (°C)
TA = Ambient temperature (°C)
PD = Power dissipated (W)
θJA = Junction-to-ambient thermal resistance
(°C/W)
The REF5025 junction temperature must not exceed
the absolute maximum rating of 210°C.
NOISE PERFORMANCE
Typical 0.1-Hz to 10-Hz voltage noise for each
member of the REF5025 is specified in the Electrical
Characterisitics table. The noise voltage increases
with output voltage and operating temperature.
Additional filtering can be used to improve output
noise levels, although care should be taken to ensure
the output impedance does not degrade performance.
Copyright © 2009–2012, Texas Instruments Incorporated
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SBOS502D – SEPTEMBER 2009 – REVISED APRIL 2012
APPLICATION CIRCUITS
DATA ACQUISITION
For applications requiring a negative and positive
reference voltage, the REF5025 and OPA735 can be
used to provide a dual-supply reference from a 5-V
supply. Figure 29 shows the REF5025 used to
provide a 2.5-V supply reference voltage. The low
drift performance of the REF5025 complements the
low offset voltage and zero drift of the OPA735 to
provide an accurate solution for split-supply
applications. Care must be taken to match the
temperature coefficients of R1 and R2.
Data acquisition systems often require stable voltage
references to maintain accuracy. The REF5025
features low noise, very low drift, and high initial
accuracy for high-performance data converters.
Figure 30 shows the REF5025 in a basic data
acquisition system.
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NEGATIVE REFERENCE VOLTAGE
+5V
Input
Signal
0V to 4V
R1
50W
OPA365
C1
1.2nF
+5V
+5V
VDD
+IN
ADS8326
-IN
REF
GND
REF5025
DNC
VIN
DNC
REF5025
NC
TEMP
+5V
VOUT
GND TRIM/NR
VOUT
CBYPASS
1mF
+2.5V
1mF
R1
10kW
VIN
GND
C2
22mF
R2
10kW
A.
+5V
OPA735
OPA365 and ADS8326 have not been
characterized or tested at 210°C.
Figure 30. Basic Data Acquisition System
-2.5V
-5V
NOTE: Bypass capacitors not shown.
A.
OPA735 has not been characterized or
tested at 210°C.
Figure 29. The REF5025 and OPA735 Create
Positive and Negative Reference Voltages
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PACKAGE OPTION ADDENDUM
www.ti.com
2-May-2012
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PACKAGING INFORMATION
Orderable Device
Status
(1)
Package Type Package
Drawing
Pins
Package Qty
Eco Plan
(2)
Lead/
Ball Finish
MSL Peak Temp
REF5025SHKJ
ACTIVE
CFP
HKJ
8
1
TBD
Call TI
N / A for Pkg Type
REF5025SHKQ
ACTIVE
CFP
HKQ
8
25
TBD
AU
N / A for Pkg Type
REF5025SKGD1
ACTIVE
XCEPT
KGD
0
195
TBD
Call TI
N / A for Pkg Type
(1)
(3)
Samples
(Requires Login)
The marketing status values are defined as follows:
ACTIVE: Product device recommended for new designs.
LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.
NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.
PREVIEW: Device has been announced but is not in production. Samples may or may not be available.
OBSOLETE: TI has discontinued the production of the device.
(2)
Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check http://www.ti.com/productcontent for the latest availability
information and additional product content details.
TBD: The Pb-Free/Green conversion plan has not been defined.
Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements for all 6 substances, including the requirement that
lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes.
Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and package, or 2) lead-based die adhesive used between
the die and leadframe. The component is otherwise considered Pb-Free (RoHS compatible) as defined above.
Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame retardants (Br or Sb do not exceed 0.1% by weight
in homogeneous material)
(3)
MSL, Peak Temp. -- The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.
Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information
provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and
continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.
TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.
In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.
OTHER QUALIFIED VERSIONS OF REF5025-HT :
• Catalog: REF5025
• Enhanced Product: REF5025-EP
Addendum-Page 1
PACKAGE OPTION ADDENDUM
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NOTE: Qualified Version Definitions:
2-May-2012
• Catalog - TI's standard catalog product
• Enhanced Product - Supports Defense, Aerospace and Medical Applications
Addendum-Page 2
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