SGM8968-4 [SGMICRO]

1.6mA, 10MHz, High Precision, Rail-to-Rail I/O, Low Noise, CMOS Operational Amplifier;


型号：	SGM8968-4
厂家：	Shengbang Microelectronics Co, Ltd
描述：	1.6mA, 10MHz, High Precision, Rail-to-Rail I/O, Low Noise, CMOS Operational Amplifier
文件：	总18页 (文件大小：1158K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SGM8968-1/SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

GENERAL DESCRIPTION

FEATURES

The SGM8968-1/2/4 are a family of single, dual and

quad rail-to-rail input and output operational amplifiers,

which are optimized for low voltage, low noise and high

precision operation. These devices can operate from

1.8V to 5.5V single supply, while consuming only

1.6mA quiescent current per amplifier at 5.5V.

● Input Offset Voltage: 240μV (MAX)

● High Gain-Bandwidth Product: 10MHz

● High Slew Rate: 20V/μs

● Settling Time to 0.1% with 2V Step: 280ns

● Overload Recovery Time: 100ns

● Low Noise: 8nV/ Hz at 10kHz

√

● Rail-to-Rail Input and Output

The SGM8968-1/2/4 feature a 240μV maximum input

offset. They exhibit a high gain-bandwidth product of

10MHz and a slew rate of 20V/μs. These specifications

make the operational amplifiers appropriate for various

applications.

● Supply Voltage Range: 1.8V to 5.5V

● Input Voltage Range: -0.1V to 5.6V with V_S= 5.5V

● Low Power: 1.6mA/Amplifier (TYP) Supply Current

● -40℃ to +125℃ Operating Temperature Range

● Small Packaging:

The SGM8968-1 is available in Green SOT-23-5 and

SOIC-8 packages. The SGM8968-2 is available in Green

SOIC-8 and MSOP-8 packages. The SGM8968-4 is

available in Green SOIC-14 and TSSOP-14 packages.

They are specified over the extended industrial

temperature range (-40℃ to +125℃).

SGM8968-1 Available in Green SOT-23-5 and

SOIC-8 Packages

SGM8968-2 Available in Green SOIC-8 and

MSOP-8 Packages

SGM8968-4 Available in Green SOIC-14 and

TSSOP-14 Packages

APPLICATIONS

Sensor

Audio

Active Filter

A/D Converter

Communication

Test Equipment

Cellular and Cordless Phone

Laptop and PDA

Photodiode Amplification

Battery-Powered Instrumentation

SG Micro Corp

MAY 2020 – REV. A. 1

www.sg-micro.com

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

PACKAGE/ORDERING INFORMATION

SPECIFIED

TEMPERATURE

RANGE

PACKAGE

DESCRIPTION

ORDERING

NUMBER

PACKAGE

MARKING

PACKING

OPTION

MODEL

SOT-23-5

SOIC-8

SGM8968-1XN5G/TR

MB6XX

Tape and Reel, 3000

Tape and Reel, 4000

Tape and Reel, 2500

Tape and Reel, 4000

-40℃ to +125℃

SGM8968-1

SGM

89681XS8

XXXXX

SGM

89682XS8

XXXXX

SGM89682

XMS8

XXXXX

SGM8968-1XS8G/TR

SGM8968-2XS8G/TR

SGM8968-2XMS8G/TR

SGM8968-4XS14G/TR

SGM8968-4XTS14G/TR

SOIC-8

SGM8968-2

SGM8968-4

MSOP-8

SOIC-14

TSSOP-14

SGM89684XS14

XXXXX

SGM89684

XTS14

XXXXX

MARKING INFORMATION

NOTE: XX = Date Code. XXXXX = Date Code, Trace Code and Vendor Code.

SOT-23-5

SOIC-8/MSOP-8/SOIC-14/TSSOP-14

YYY X X

X X X X X

Date Code - Week

Date Code - Year

Serial Number

Vendor Code

Trace Code

Date Code - Year

Green (RoHS & HSF): SG Micro Corp defines "Green" to mean Pb-Free (RoHS compatible) and free of halogen substances. If

you have additional comments or questions, please contact your SGMICRO representative directly.

ABSOLUTE MAXIMUM RATINGS

Supply Voltage, +V_Sto -V_S.................................................6V

may affect reliability. Functional operation of the device at any

conditions beyond those indicated in the Recommended

Operating Conditions section is not implied.

Input Common Mode Voltage Range

.................................................... (-V_S) - 0.3V to (+V_S) + 0.3V

Junction Temperature .................................................+150℃

Storage Temperature Range........................-65℃ to +150℃

Lead Temperature (Soldering, 10s) ............................+260℃

ESD Susceptibility

ESD SENSITIVITY CAUTION

This integrated circuit can be damaged if ESD protections are

not considered carefully. SGMICRO recommends that all

integrated circuits be handled with appropriate precautions.

Failureto observe proper handlingand installation procedures

can cause damage. ESD damage can range from subtle

performance degradation tocomplete device failure. Precision

integrated circuits may be more susceptible to damage

because even small parametric changes could cause the

device not to meet the published specifications.

HBM (SGM8968-1/2)...................................................7000V

HBM (SGM8968-4)......................................................6000V

CDM ............................................................................1000V

RECOMMENDED OPERATING CONDITIONS

Operating Temperature Range .....................-40℃ to +125℃

DISCLAIMER

OVERSTRESS CAUTION

Stresses beyond those listed in Absolute Maximum Ratings

may cause permanent damage to the device. Exposure to

absolute maximum rating conditions for extended periods

SG Micro Corp reserves the right to make any change in

circuit design, or specifications without prior notice.

SG Micro Corp

www.sg-micro.com

MAY 2020

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

PIN CONFIGURATIONS

SGM8968-1 (TOP VIEW)

-IN

OUT

-V_S

+V_S

-IN

+V_S

OUT

+IN

-V_S

+IN

SOT-23-5

NC = NO CONNECT

SOIC-8

SGM8968-4 (TOP VIEW)

SGM8968-2 (TOP VIEW)

OUTA

-INA

OUTD

OUTA

-INA

+INA

-V_S

+V_S

-IND

+IND

-V_S

OUTB

-INB

+INB

+INA

+V_S

+INB

-INB

+INC

-INC

OUTC

SOIC-8/MSOP-8

OUTB

SOIC-14/TSSOP-14

SG Micro Corp

www.sg-micro.com

MAY 2020

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

ELECTRICAL CHARACTERISTICS

(At T_A= +25℃, V_S= 1.8V to 5.5V or ±0.9V to ±2.75V, V_CM= V_S/2 and R_L= 10kΩ connected to V_S/2, Full = -40℃ to +125℃,

unless otherwise noted.)

PARAMETER

SYMBOL

CONDITIONS

TEMP

MIN

TYP

MAX

UNITS

Input Characteristics

240

700

+25℃

Full

Input Offset Voltage

Input Offset Voltage Drift

Input Bias Current

V_OS

μV

μV/℃

ΔV_OS/ΔT V_S= ±2.75V

Full

120

6500

+25℃

Full

I_B

120

+25℃

Full

Input Offset Current

I_OS

1500

Input Common Mode Voltage Range

V_CM

Full

(-V_S) - 0.1

(+V_S) + 0.1

+25℃

Full

V_S= 5.5V, V_CM= -0.1V to 5.6V

Common Mode Rejection Ratio

CMRR

+25℃

Full

V_S= 1.8V, V_CM= -0.1V to 1.9V

117

130

117

128

+25℃

Full

V_S= ±0.9V, R_L= 1kΩ ,

(-V_S) + 0.25V < V_OUT< (+V_S) - 0.25V

102

+25℃

Full

V_S= ±2.75V, R_L= 1kΩ,

(-V_S) + 0.25V < V_OUT< (+V_S) - 0.25V

Open-Loop Voltage Gain

A_OL

+25℃

Full

V_S= ±0.9V, R_L= 10kΩ ,

(-V_S) + 0.15V < V_OUT< (+V_S) - 0.15V

102

+25℃

Full

V_S= ±2.75V, R_L= 10kΩ ,

(-V_S) + 0.15V < V_OUT< (+V_S) - 0.15V

Output Characteristics

+25℃

Full

V_S= 5.5V, R_L= 1kΩ

V_S= 5.5V, R_L= 10kΩ

V_S= 5.5V

Output Voltage Swing from Rail

V_OUT

+25℃

Full

+25℃

Full

Output Current (I_OUT

)

I_OUT

Power Supply

Operating Voltage Range

V_S

Full

+25℃

Full

1.8

5.5

110

1.6

Power Supply Rejection Ratio

PSRR

V_S= 1.8V to 5.5V, V_CM= (-V_S) + 0.5V

I_OUT= 0

2.1

2.2

+25℃

Full

Quiescent Current/Amplifier

I_Q

Dynamic Performance

Gain-Bandwidth Product

Phase Margin

GBP

φ_O

V_S= 5V

MHz

+25℃

V_S= 5V

Slew Rate

t_S

V_S= 5V, G = +1, 2V output step

V_S= 5V, V_IN× G = V_S

V/μs

Settling Time to 0.1%

Overload Recovery Time

280

100

V_OUT= 4V_P-P, G = +1, f = 10kHz,

BW = 22Hz to 80kHz

Total Harmonic Distortion + Noise

THD+N

e_n

0.0005

+25℃

Noise Performance

f = 1kHz

+25℃

Input Voltage Noise Density

nV/

f = 10kHz

SG Micro Corp

www.sg-micro.com

MAY 2020

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

TYPICAL PERFORMANCE CHARACTERISTICS

At T_A= +25℃, V_S= ±2.75V and R_L= 10kΩ, unless otherwise noted.

Quiescent Current vs. Supply Voltage

Input Offset Voltage vs. Input Common Mode Voltage

1.8

1.7

1.6

1.5

1.4

1.3

100

7 Typical Units Shown

+125℃

+85℃

+25℃

-40℃

-20

-60

-100

-3

-2

-1

Input Common Mode Voltage (V)

Supply Voltage (V)

Input Bias Current vs. Supply Voltage

I_Band I_OSvs. Input Common Mode Voltage

0.05

1.5

+I_B

-I_B

-0.05

-0.1

-0.15

-0.2

-0.25

0.5

-0.5

-1

+I_B

I_OS

-1.5

0.5

1.5

2.5

-3

-2

-1

Supply Voltage (V)

Input Common Mode Voltage (V)

Slew Rate vs. Supply Voltage

Output Voltage Swing vs. Output Current

Down

— -40℃

— +25℃

— +125℃

-1

-2

-3

100

Supply Voltage (V)

Output Current (mA)

SG Micro Corp

www.sg-micro.com

MAY 2020

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

TYPICAL PERFORMANCE CHARACTERISTICS (continued)

At T_A= +25℃, V_S= ±2.75V and R_L= 10kΩ, unless otherwise noted.

Closed-Loop Gain vs. Frequency

G = +100

Closed-Loop Gain vs. Frequency

G = +100

V_S= ±2.5V

V_S= ±0.9V

G = +10

G = +1

-20

-40

0.01 0.1

100 1000 10000100000

0.01 0.1

100 1000 10000100000

Frequency (kHz)

Channel Separation vs. Frequency

Open-Loop Gain and Phase vs. Frequency

-40

-60

100

180

150

120

Phase

-80

-100

-120

-140

-160

Open-Loop Gain

V_S= ±2.5V

0.1

-20

100

1000 10000 100000

0.01 0.1

100 1000 10000100000

Frequency (kHz)

THD+N vs. Frequency

THD+N vs. Output Amplitude

0.01

0.1

0.01

V_S= ±2.5V

G = +1

— R_L= 10kΩ, V_OUT= 4V_P-P

— R_L= 1kΩ, V_OUT= 2V_P-P

0.001

V_S= ±2.5V

G = +1

f = 10kHz

0.0001

— R_L= 10kΩ

— R_L= 1kΩ

0.00001

0.0001

0.001

0.01

0.1

100

1000

10000

100000

Output Amplitude (V_RMS

)

Frequency (Hz)

SG Micro Corp

www.sg-micro.com

MAY 2020

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

TYPICAL PERFORMANCE CHARACTERISTICS (continued)

At T_A= +25℃, V_S= ±2.75V and R_L= 10kΩ, unless otherwise noted.

CMRR vs. Frequency

PSRR vs. Frequency

-40

-60

-20

V_S= ±2.5V

— PSRR+

— PSRR-

-40

-80

-60

-100

-120

-140

-80

-100

-120

0.1

100

1000 10000 100000

0.1

100

1000 10000 100000

Frequency (kHz)

Maximum Output Voltage vs. Frequency

Input Voltage Noise Density vs. Frequency

1000

100

V_S= 5V

V_S= 3.3V

V_S= 1.8V

100

1000

10000

100

1000

10000

100000

Frequency (Hz)

Frequency (kHz)

Small-Signal Overshoot vs. Capacitive Load

0.1Hz to 10Hz Input Voltage Noise

V_S= ±2.5V

— V_S= ±0.9V, G = +1

— V_S= ±0.9V, G = +10

— V_S= ±2.5V, G = +1

— V_S= ±2.5V, G = +10

100

1000

10000

Time (1s/div)

Load Capacitance (pF)

SG Micro Corp

www.sg-micro.com

MAY 2020

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

TYPICAL PERFORMANCE CHARACTERISTICS (continued)

At T_A= +25℃, V_S= ±2.75V and R_L= 10kΩ, unless otherwise noted.

Small-Signal Step Response

G = +1

G = -1

— V_IN

— V_OUT

— V_IN

— V_OUT

Time (200ns/div)

Large-Signal Step Response

No Phase Reversal

G = +1

— V_IN

— V_OUT

— V_IN

— V_OUT

-1

-2

-3

-4

Time (200ns/div)

Time (100μs/div)

Input Offset Voltage Production Distribution

Input Offset Voltage Drift Distribution

R_L= 1kΩ

-40℃ ≤ T_A≤ +125℃

3240 Samples

1 Production Lot

Input Offset Voltage (μV)

Input Offset Voltage Drift (μV/℃)

SG Micro Corp

www.sg-micro.com

MAY 2020

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

APPLICATION INFORMATION

Rail-to-Rail Input

Driving Capacitive Loads

When SGM8968-1/2/4 work at the power supply between

1.8V and 5.5V, the input common mode voltage range

is from (-V_S) - 0.1V to (+V_S) + 0.1V. In Figure 1, the ESD

diodes between the inputs and the power supply rails

will clamp the input voltage not to exceed the rails.

The SGM8968-1/2/4 are designed for unity-gain stable for

capacitive load up to 1nF. If greater capacitive load

must be driven in application, the circuit in Figure 3 can

be used. In this circuit, the IR drop voltage generated

by R_ISOis compensated by feedback loop.

+V_S

R_F

C_F

V_P

R_ISO

V_N

V_OUT

C_L

V_IN

-V_S

Figure 1. Input Equivalent Circuit

Figure 3. Circuit to Drive Heavy Capacitive Load

Input Current-Limit Protection

Power Supply Decoupling and Layout

For ESD diode clamping protection, when the current

flowing through ESD diode exceeds the maximum

rating value, the ESD diode and amplifier will be

damaged, so current-limit protection will be added in

some applications. One resistor is selected to limit the

current not to exceed the maximum rating value. In

Figure 2, a series input resistor is used to limit the input

current to less than 10mA, but the drawback of this

current-limit resistor is that it contributes thermal noise

at the amplifier input. If this resistor must be added, its

value must be selected as small as possible.

A clean and low noise power supply is very important in

amplifier circuit design, besides of input signal noise,

the power supply is one of important source of noise to

the amplifiers through +V_Sand -V_Spins. Power supply

bypassing is an effective method to clear up the noise

at power supply, and the low impedance path to ground

of decoupling capacitor will bypass the noise to GND.

In application, 10μF ceramic capacitor paralleled with

0.1μF or 0.01μF ceramic capacitor is used in Figure 4.

The ceramic capacitors should be placed as close as

possible to +V_Sand -V_Spower supply pins.

+V_S

10μF

I_OVERLOAD

10mA MAX

V_OUT

0.1μF

V_IN

V_N

V_P

V_N

V_P

V_OUT

Figure 2. Input Current-Limit Protection

10μF

-V_S(GND)

Rail-to-Rail Output

The SGM8968-1/2/4 support rail-to-rail output operation.

In single power supply application, for example, when

+V_S= 5.5V, -V_S= GND, 10kΩ load resistor is tied from

OUT pin to V_S/2, the typical output swing range is from

0.008V to 5.492V.

0.1μF

-V_S

Figure 4. Amplifier Power Supply Bypassing

SG Micro Corp

www.sg-micro.com

MAY 2020

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

APPLICATION INFORMATION (continued)

Grounding

In low speed application, one node grounding technique

R₁

R₂

is the simplest and most effective method to eliminate

the noise generated by grounding. In high speed

V_N

application, the general method to eliminate noise is to

use a complete ground plane technique, and the whole

ground plane will help distribute heat and reduce EMI

V_OUT

V_P

R₃

noise pickup.

R₄

Reduce Input-to-Output Coupling

To reduce the input-to-output coupling, the input traces

V_REF

must be placed as far away from the power supply or

Figure 6. High Input Impedance Difference Amplifier

output traces as possible. The sensitive trace must not

be placed in parallel with the noisy trace in same layer.

They must be placed perpendicularly in different layers

to reduce the crosstalk. These PCB layout techniques

will help to reduce unwanted positive feedback and

noise.

Active Low-Pass Filter

The circuit in Figure 7 is a design example of active

low-pass filter, the DC gain is equal to -R₂/R₁and the

-3dB corner frequency is equal to 1/2πR₂C. In this design,

the filter bandwidth must be less than the bandwidth of

the amplifier, the resistor values must be selected as

low as possible to reduce ringing or oscillation generated

by the parasitic parameters in PCB layout.

Typical Application Circuits

Difference Amplifier

The circuit in Figure 5 is a design example of classical

difference amplifier. If R₄/R₃= R₂/R₁, then V_OUT= (V_P-

R₂

V_N) × R₂/R₁+ V_REF

R₁

R₂

V_IN

V_OUT

R₁

V_N

V_OUT

R₃

R₃= R₁// R₂

V_P

R₄

Figure 7. Active Low-Pass Filter

V_REF

Figure 5. Difference Amplifier

High Input Impedance Difference Amplifier

The circuit in Figure 6 is a design example of high input

impedance difference amplifier, the added amplifiers at

the input are used to increase the input impedance and

eliminate drawback of low input impedance in Figure 5.

SG Micro Corp

www.sg-micro.com

MAY 2020

SGM8968-1

SGM8968-2/SGM8968-4

1.6mA, 10MHz, High Precision, Low Noise,

Rail-to-Rail I/O, CMOS Operational Amplifiers

REVISION HISTORY

NOTE: Page numbers for previous revisions may differ from page numbers in the current version.

MAY 2020 ‒ REV.A to REV.A.1

Page

Updated Electrical Characteristics section...........................................................................................................................................................4

Updated Typical Performance Characteristics section.........................................................................................................................................8

Changes from Original (DECEMBER 2019) to REV.A

Page

Changed from product preview to production data.............................................................................................................................................All

SG Micro Corp

www.sg-micro.com

MAY 2020

PACKAGE INFORMATION

PACKAGE OUTLINE DIMENSIONS

SOT-23-5

1.90

2.59

0.99

0.95

0.69

RECOMMENDED LAND PATTERN (Unit: mm)

0.2

Dimensions

In Millimeters

Dimensions

In Inches

Symbol

MIN

MAX

1.250

0.100

1.150

0.500

0.200

3.020

1.700

2.950

MIN

MAX

0.049

0.004

0.045

0.020

0.008

0.119

0.067

0.116

1.050

0.000

1.050

0.300

0.100

2.820

1.500

2.650

0.041

0.000

0.041

0.012

0.004

0.111

0.059

0.104

0.950 BSC

1.900 BSC

0.037 BSC

0.075 BSC

0.300

0°

0.600

8°

0.012

0°

0.024

8°

SG Micro Corp

www.sg-micro.com

TX00033.000

PACKAGE INFORMATION

PACKAGE OUTLINE DIMENSIONS

SOIC-8

0.6

2.2

5.2

1.27

RECOMMENDED LAND PATTERN (Unit: mm)

Dimensions

In Millimeters

Dimensions

In Inches

Symbol

MIN

MAX

1.750

0.250

1.550

0.510

0.250

5.100

4.000

6.200

MIN

MAX

0.069

0.010

0.061

0.020

0.010

0.200

0.157

0.244

1.350

0.100

1.350

0.330

0.170

4.700

3.800

5.800

0.053

0.004

0.053

0.013

0.006

0.185

0.150

0.228

1.27 BSC

0.050 BSC

0.400

0°

1.270

8°

0.016

0°

0.050

8°

SG Micro Corp

www.sg-micro.com

TX00010.000

PACKAGE INFORMATION

PACKAGE OUTLINE DIMENSIONS

MSOP-8

4.8

1.02

0.41

0.65

RECOMMENDED LAND PATTERN (Unit: mm)

Dimensions

In Millimeters

Dimensions

In Inches

Symbol

MIN

MAX

1.100

0.150

0.950

0.380

0.230

3.100

5.050

MIN

MAX

0.043

0.006

0.037

0.015

0.009

0.122

0.199

0.820

0.020

0.750

0.250

0.090

2.900

4.750

0.032

0.001

0.030

0.010

0.004

0.114

0.187

0.650 BSC

0.026 BSC

0.400

0°

0.800

6°

0.016

0°

0.031

6°

SG Micro Corp

www.sg-micro.com

TX00014.000

PACKAGE INFORMATION

PACKAGE OUTLINE DIMENSIONS

SOIC-14

5.2

2.2

0.6

1.27

RECOMMENDED LAND PATTERN (Unit: mm)

Dimensions

In Millimeters

In Inches

Symbol

MIN

1.35

0.10

1.25

0.55

0.36

8.53

5.80

3.80

MAX

1.75

0.25

1.65

0.75

0.49

8.73

6.20

4.00

MIN

MAX

0.069

0.010

0.065

0.030

0.019

0.344

0.244

0.157

0.053

0.004

0.049

0.022

0.014

0.336

0.228

0.150

1.27 BSC

0.050 BSC

0.45

0.80

0.018

0.032

1.04 REF

0.25 BSC

0.040 REF

0.01 BSC

0.07

0.30

0°

0.003

0.012

0°

0.50

8°

0.020

8°

SG Micro Corp

www.sg-micro.com

TX00011.001

PACKAGE INFORMATION

PACKAGE OUTLINE DIMENSIONS

TSSOP-14

5.94

1.78

0.42

0.65

RECOMMENDED LAND PATTERN (Unit: mm)

Dimensions

In Millimeters

Dimensions

In Inches

Symbol

MIN

MAX

MIN

MAX

0.047

0.006

0.041

0.012

0.008

0.201

0.177

0.258

1.200

0.150

1.050

0.300

0.200

5.100

4.500

6.550

0.050

0.800

0.190

0.090

4.860

4.300

6.250

0.002

0.031

0.007

0.004

0.191

0.169

0.246

0.650 BSC

0.25 TYP

0.026 BSC

0.01 TYP

0.500

1°

0.700

7°

0.02

1°

0.028

7°

SG Micro Corp

www.sg-micro.com

TX00019.001

PACKAGE INFORMATION

TAPE AND REEL INFORMATION

REEL DIMENSIONS

TAPE DIMENSIONS

Reel Diameter

Reel Width (W1)

DIRECTION OF FEED

NOTE: The picture is only for reference. Please make the object as the standard.

KEY PARAMETER LIST OF TAPE AND REEL

Reel Width

Reel

Diameter

Pin1

Package Type

(mm)

(mm) (mm) (mm) (mm) (mm) (mm) (mm) Quadrant

SOT-23-5

SOIC-8

7″

9.5

3.20

6.40

5.20

6.60

6.95

3.20

5.40

3.30

9.30

5.60

1.40

2.10

1.50

2.10

1.20

4.0

8.0

2.0

8.0

13″

12.4

16.4

12.4

12.0

16.0

12.0

MSOP-8

SOIC-14

TSSOP-14

SG Micro Corp

TX10000.000

www.sg-micro.com

PACKAGE INFORMATION

CARTON BOX DIMENSIONS

NOTE: The picture is only for reference. Please make the object as the standard.

KEY PARAMETER LIST OF CARTON BOX

Length

(mm)

Width

(mm)

Height

(mm)

Reel Type

Pizza/Carton

7″ (Option)

368

442

386

227

410

280

224

370

7″

13″

SG Micro Corp

www.sg-micro.com

TX20000.000

SGM8968-4 [SGMICRO]

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