SGM8604-1 [SGMICRO]

15MHz, High Output Drive, High Precision, Low Noise Operational Amplifier;


型号：	SGM8604-1
厂家：	Shengbang Microelectronics Co, Ltd
描述：	15MHz, High Output Drive, High Precision, Low Noise Operational Amplifier
文件：	总17页 (文件大小：893K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SGM8604-1/SGM8604-2/SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

GENERAL DESCRIPTION

FEATURES

The SGM8604-1 (single), SGM8604-3 (single with

shutdown), SGM8604-2 (dual) and SGM8604-5 (dual

with shutdown) are low noise, high precision CMOS

operational amplifiers that provide a high output current

of 232mA, rail-to-rail output operation from a range of

2.7V to 5.5V single supply. The SGM8604-3/5 are both

available with shutdown pins that drive the output

voltage low.

• Output Drive Capability: 232mA

• Low Input Offset Voltage: 10μV (MAX)

• Low Input Offset Voltage Drift: 17nV/℃ (TYP)

• Low Noise: 22nV/√Hz at 1kHz

• Gain-Bandwidth Product: 15MHz

• High Slew Rate: 7V/μs

• High Open-Loop Gain (R_L= 2kΩ): 145dB

• Power Supply Rejection Ratio: 127dB

• Over-Temperature Protection

• No Phase Reversal for Overdriven Inputs

• Rail-to-Rail Input and Output

• Supply Voltage Range: 2.7V to 5.5V

• Quiescent Supply Current:

1.2mA/Amplifier (TYP)

The SGM8604-1/2/3/5 offer low input offset voltage, low

input offset voltage drift and high output current drive.

These devices also can achieve a high 15MHz

gain-bandwidth product and a high 7V/μs slew rate.

The SGM8604-1/2/3/5 are specifically designed to

drive high current load, such as 32Ω headset, V_BIASof

RF power amplifier, etc.

0.1μA/Amplifier (TYP) Shutdown Current for

SGM8604-3/5

• -40℃ to +125℃ Operating Temperature Range

• Small Packaging:

The SGM8604-1/3 are available in

Green

UTDFN-1.45×1-6L package. The SGM8604-2 is

available in a Green TDFN-2×3-8AL package. The

SGM8604-5 is available in a Green TDFN-3×3-10L

package. They operate over an ambient temperature

range of -40℃ to +125℃.

SGM8604-1 Available in a Green UTDFN-1.45×1-6L

Package

SGM8604-2 Available in a Green TDFN-2×3-8AL

Package

SGM8604-3 Available in a Green UTDFN-1.45×1-6L

Package

SGM8604-5 Available in a Green TDFN-3×3-10L

Package

APPLICATIONS

V_BIASof RF Power Amplifiers

Portable Stereo Headphone Drivers (32Ω)

Battery-Powered Equipment

Audio System

TYPICAL APPLICATION

Antenna

2.7V to 5.5V

Optical Module

DAC Buffer

I_OUT= 30mA

DAC

R_ISO

Industrial Equipment

SGM8604-

C_L

SHDN

C_F1

R_F

C_F2

SG Micro Corp

JANUARY 2019 – REV. A. 3

www.sg-micro.com

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

PACKAGE/ORDERING INFORMATION

SPECIFIED

PACKAGE

DESCRIPTION

ORDERING

NUMBER

PACKAGE

MARKING

PACKING

OPTION

MODEL

TEMPERATURE

RANGE

SGM8604-1

SGM8604-2

SGM8604-3

SGM8604-5

UTDFN-1.45×1-6L

SGM8604-1XUDL6G/TR

SGM8604-2XTDC8G/TR

SGM8604-3XUDL6G/TR

SGM8604-5XTD10G/TR

D1X

Tape and Reel, 5000

Tape and Reel, 3000

Tape and Reel, 5000

Tape and Reel, 4000

-40℃ to +125℃

GD0

XXXX

TDFN-2×3-8AL

UTDFN-1.45×1-6L

TDFN-3×3-10L

D2X

SGM

86045D

XXXXX

-40℃ to +125℃

MARKING INFORMATION

NOTE: X = Date Code. XXXX = Date Code. XXXXX = Date Code and Vendor Code.

UTDFN-1.45×1-6L

TDFN-2×3-8AL

Serial Number

Y Y Y

XX XX

YY X

Date Code - Year

Serial Number

Date Code - Week

Date Code - Year

TDFN-3×3-10L

X X X X X

Vendor Code

Date Code - Week

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 rating conditions for extended periods

ABSOLUTE MAXIMUM RATINGS

may affect reliability. Functional operation of the device at any

conditions beyond those indicated in the Recommended

Operating Conditions section is not implied.

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

All Other Pins.............................. (-V_S) - 0.3V to (+V_S) + 0.3V

Output Short-Circuit Duration to +V_Sor -V_S.......................10s

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.............................................................................7000V

MM.................................................................................400V

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

RECOMMENDED OPERATING CONDITIONS

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

Operating Supply Voltage Range .......................2.7V to 5.5V

DISCLAIMER

SG Micro Corp reserves the right to make any change in

OVERSTRESS CAUTION

Stresses beyond those listed in Absolute Maximum Ratings

circuit design, or specifications without prior notice.

may cause permanent damage to the device. Exposure to

SG Micro Corp

www.sg-micro.com

JANUARY 2019

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

PIN CONFIGURATIONS

SGM8604-1 (TOP VIEW)

SGM8604-2 (TOP VIEW)

OUTA

-INA

+INA

-V_S

+V_S

+IN

-V_S

-IN

+V_S

OUTB

-INB

+INB

OUT

UTDFN-1.45×1-6L

TDFN-2×3-8AL

SGM8604-3 (TOP VIEW)

SGM8604-5 (TOP VIEW)

OUTA

-INA

10 +V_S

+IN

+V_S

OUTB

+INA

-INB

-V_S

-IN

SHDN

OUT

-V_S

+INB

SHDNA

SHDNB

UTDFN-1.45×1-6L

TDFN-3×3-10L

NOTE: For TDFN-2×3-8AL and TDFN-3×3-10L packages, the exposed pad must be connected to -V_Sor left floating. Connect it

to -V_Splane can maximize thermal performance.

SG Micro Corp

www.sg-micro.com

JANUARY 2019

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

ELECTRICAL CHARACTERISTICS

(At T_A= +25℃, Full = -40℃ to +125℃, V_S= 2.7V to 5V, -V_S= 0V, V_CM= V_S/2, V_OUT= V_S/2, R_L= ∞ connected to V_S/2, V_SHDN

V_S, unless otherwise noted.)

PARAMETER

SYMBOL

CONDITIONS

TEMP

MIN

TYP

MAX

UNITS

Input Characteristics

V_S= 2.7V

V_S= 5V

2.4

+25℃

Full

Input Offset Voltage

Input Offset Voltage Drift

Input Bias Current

V_OS

ΔV_OS/ΔT

I_B

μV

nV/℃

V_S= 2.7V

V_S= 5V

126

130

Full

V_S= 2.7V, V_CM= V_S/2

V_S= 5V, V_CM= V_S/2

V_S= 2.7V, V_CM= V_S/2

V_S= 5V, V_CM= V_S/2

Inferred from CMRR test

+25℃

Full

200

Input Offset Current

I_OS

200

Input Common Mode Voltage Range

V_CM

(-V_S) - 0.1

104

100

108

(+V_S) + 0.1

120

145

142

145

V_S= 2.7V,

(-V_S) - 0.1V < V_CM< (+V_S) + 0.1V

Common Mode Rejection Ratio

CMRR

+25℃

Full

V_S= 5V,

(-V_S) - 0.1V < V_CM< (+V_S) + 0.1V

112

+25℃

Full

R_L= 2kΩ

V_S= 2.7V,

(-V_S) + 0.2V < V_OUT< (+V_S) -

0.2V

110

109

106

115

+25℃

Full

R_L= 200Ω

R_L= 2kΩ

R_L= 200Ω

Large Signal Voltage Gain

A_VOL

+25℃

Full

V_S= 5V,

(-V_S) + 0.2V < V_OUT< (+V_S) -

0.2V

112

110

+25℃

Full

108

Output Characteristics

245

300

370

+25℃

Full

R_L= 32Ω

+25℃

Full

R_L= 200Ω

R_L= 2kΩ

V_S= 2.7V

+25℃

Full

400

100

122

485

585

+25℃

Full

I_OUT= 10mA

R_L= 32Ω

Output Voltage Swing from Rail

V_OUT

+25℃

Full

+25℃

Full

R_L= 200Ω

R_L= 2kΩ

113

V_S= 5V

+25℃

Full

120

240

+25℃

Full

I_OUT= 10mA

102

+25℃

Full

V_S= 2.7V

V_S= 5V

Short Circuit Current Limit

I_SC

185

154

+25℃

Full

SG Micro Corp

www.sg-micro.com

JANUARY 2019

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

ELECTRICAL CHARACTERISTICS (continued)

(At T_A= +25℃, Full = -40℃ to +125℃, V_S= 2.7V to 5V, -V_S= 0V, V_CM= V_S/2, V_OUT= V_S/2, R_L= ∞ connected to V_S/2, V_SHDN

V_S, unless otherwise noted.)

PARAMETER

SYMBOL

CONDITIONS

TEMP

MIN

TYP

MAX

UNITS

Power-Down Disable (SGM8604-3/5 Only)

I_{Q (}

V_SHDN= 0V, R_L= ∞

Shutdown Supply Current/Amplifier

0.1

2.5

0.5

μA

)

+25℃

SHDN

V_IL

V_IH

Shutdown mode

Normal mode

Logic Threshold

SHDN

1.6

-V_S< V_SHDN< V_S

V_SHDN= 0V

Input Bias Current

SHDN

Shutdown Output Impedance

Output Voltage in Shutdown

Shutdown Time

R_OUT

V_{OUT (}

V_SHDN= 0V, R_L= 200Ω

μs

)

SHDN

Enable Delay Time

t_ENABLE

Power Supply

Supply Voltage Range

V_S

Inferred from PSRR test

2.7

102

5.5

+25℃

Full

127

Power Supply Rejection Ratio

PSRR

V_S= 2.7V, V_CM= V_S/2

V_S= 5V, V_CM= V_S/2

1.1

1.2

1.55

1.6

+25℃

Full

Quiescent Supply Current/Amplifier

I_Q

2.1

Dynamic Performance

Gain-Bandwidth Product

Slew Rate

GBP

V_CM= V_S/2

MHz

+25℃

V/μs

V_S= 5V, R_L= 32Ω, f = 10kHz,

V_OUT= 2V_P-P, A_VCL= 1V/V

Total Harmonic Distortion + Noise

THD+N

C_IN

0.008

+25℃

Input Capacitance

-125

780

μs

+25℃

Channel-to-Channel Isolation

Capacitive-Load Stability

Power-Up Time

f = 1kHz, R_L= 100kΩ

A_VCL= 1V/V, no sustained oscillations

t_ON

Noise Performance

f = 1kHz

+25℃

nV/

Input Voltage Noise Density

Input Voltage Noise

e_n

f = 10kHz

f = 0.1Hz to 10Hz

0.5

μV_P-P

SG Micro Corp

www.sg-micro.com

JANUARY 2019

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

TYPICAL PERFORMANCE CHARACTERISTICS

At T_A= +25℃, V_S= 5.0V, unless otherwise noted.

Quiescent Current vs. Temperature

Output Current vs. Temperature

1.6

1.2

0.8

0.4

270

260

250

240

230

220

210

200

190

V_S= 5V

I_SINK

V_S= 2.7V

I_SOURCE

-40 -25 -10

20 35 50 65 80 95 110 125

-40 -25 -10

20 35 50 65 80 95 110 125

Temperature (℃)

Common Mode Rejection Ratio vs. Frequency

Power Supply Rejection Ratio vs. Frequency

120

100

120

100

PSRR+

PSRR-

0.01

0.1

100

1000

0.1

100

1000

10000

Frequency (kHz)

Common Mode Rejection Ratio vs. Temperature

Open-Loop Gain vs. Temperature

160

150

140

130

120

110

100

150

146

142

138

134

130

V_S= 5V

V_S= 2.7V

R_L= 200Ω

-40 -25 -10

20 35 50 65 80 95 110 125

Temperature (℃)

SG Micro Corp

www.sg-micro.com

JANUARY 2019

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

TYPICAL PERFORMANCE CHARACTERISTICS (continued)

At T_A= +25℃, V_S= 5.0V, unless otherwise noted.

Large Signal Step Response

Small Signal Step Response

G = +1

f = 10kHz

_OUT= 2V_P-P

_OUT= 100mV_P-P

V_S= 5V

V_CM= V_S/2

Time (10μs/div)

THD+N vs. Output Voltage

0.018

0.015

0.012

0.009

0.006

0.003

G = +1

f = 10kHz

G = +1

f = 10kHz

R_L= 25Ω

R_L= 2kΩ

0.1

R_L= 100kΩ

0.01

0.001

R_L= 250Ω

1.4 1.45 1.5 1.55 1.6 1.65 1.7 1.75 1.8

Output Voltage (V_RMS

1.4 1.45 1.5 1.55 1.6 1.65 1.7 1.75 1.8

Output Voltage (V_RMS

)

0.1Hz to 10Hz Noise

Input Voltage Noise Density

V_S= 5V

Time (1s/div)

Frequency (kHz)

SG Micro Corp

www.sg-micro.com

JANUARY 2019

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

TYPICAL PERFORMANCE CHARACTERISTICS (continued)

At T_A= +25℃, V_S= 5.0V, unless otherwise noted.

Open-Loop Gain and Phase vs. Frequency

Offset Voltage Production Distribution

100

200

160

120

13700 Samples

1 Production Lot

Phase

Open-Loop Gain

-20

-40

0.1

100

1000 10000 100000

Offset Voltage (μV)

Frequency (kHz)

SG Micro Corp

JANUARY 2019

www.sg-micro.com

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

APPLICATION INFORMATION

Single-Supply Stereo Headphone Driver

A single-supply stereo headphone driver is shown in

Figure 1 as an example to explain the simplified design

procedure.

Cancel Input Capacitance

The C_IN(20pF TYP) at inverting input pin will generate

a pole at frequency (2πR′C_IN)^-1, where R′ is the parallel

combination of the gain-setting resistor for the inverting

or non-inverting amplifier in Figure 3. If the pole-frequency

is less than or comparable to the unity-gain bandwidth

(15MHz), the phase margin will be reduced, ringing in

the step response or sustained oscillation will be

generated. To cancel this pole, C_Fis used to compensate

C_INin Figure 3. Equation 3 gives the C_Ffeedback

capacitance.

R_F

C_IN

R_IN

Left

Audio Input

C_OUT

Headphone Jack

to 32Ω Stereo

Headset

V_BIAS

SGM8604-2

C_F= 8×(R/R_F) pF

(3)

C_OUT

where:

C_IN

R_IN

Right

Audio Input

R_Fis the feedback resistor.

R is the gain-setting resistor.

R_F

C_F

R_F

Inverting

Figure 1. Stereo Headphone Driver

In this circuit, C_INand R_INform a high-pass filter, the DC

bias is removed from the incoming signal. The -3dB

point of the high-pass filter is using Equation 1:

V_IN

V_OUT

R’ = R | | R_F

SGM8604-1

f_-3dB

(1)

2πR_INC_IN

R_FC_F= RC_IN

The gain of driver is -R_F/R_IN. The C_OUTand the load

impedance form a high-pass filter with the -3dB point

determined by Equation 2:

Non-Inverting

V_IN

f_-3dB

(2)

2πR_LC_OUT

V_OUT

SGM8604-1

Bridge Amplifier

A bridge amplifier circuit which can provide 200mW at

3V is shown in Figure 2. Due to differential output, this

structure eliminates the large coupling capacitors in

Figure 1. The voltage gain is 10V/V and the gain can be

changed by changing R₂.

R_F

C_F

R’ = R | | R_F

R_FC_F= RC_IN

C₁

0.1μF

R₁

16kΩ

R₂

82kΩ

Figure 3. Inverting and Non-Inverting Amplifiers with C_F

to Compensate C_IN

0.5V_P-P

R₅

51kΩ

R₃

10kΩ

32Ω

f_S= 100Hz

R₄

10kΩ

SGM8604-2

C₂

R₆

0.1μF

51kΩ

Figure 2. 200mW Bridge Amplifier at 3V

SG Micro Corp

www.sg-micro.com

JANUARY 2019

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

APPLICATIONS INFORMATION (continued)

Input Current-Limit Protection

Driving Capacitive Loads

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 4, a series input resistor is used to limit the input

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

current-limit resistor is to contribute thermal noise at

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

value must be selected as small as possible.

The SGM8604-1/2/3/5 are designed for unity-gain stable

for capacitive load up to 780pF. In Figure 5, it shows the

transient response with capacitive load (C_L). If greater

capacitive load must be driven in application, the circuit

in Figure 6 can be used. In this circuit, the IR drop

voltage generated by R_ISOis compensated by feedback

loop.

150

100

+V_S

-50

G = +1

f = 10kHz

V_OUT= 100mV_P-P

C_L= 780pF

I_OVERLOAD

10mA MAX

V_OUT

SGM8604-1

V_IN

-100

-150

30 40 50 60 70 80 90 100 110 120

Figure 4. Input Current-Limit Protection

Time (μs)

Figure 5. Small-Signal Transient Response

(Capacitive Load)

Rail-to-Rail Output

The SGM8604-1/2/3/5 support rail-to-rail output operation.

In single power supply application, for example, when

+V_S= 5V, -V_S= GND, 2kΩ load resistor is tied from

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

0.008V to 4.992V.

R_F

10kΩ

C_F

R_ISO

V_OUT

SGM8604-1

C_L

V_IN

Figure 6. Circuit to Drive Capacitive Load

SG Micro Corp

www.sg-micro.com

JANUARY 2019

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

APPLICATIONS INFORMATION (continued)

Shutdown Mode and Power-Up

Power Supply Decoupling and Layout

The SGM8604-3 and SGM8604-5 are disabled when

the shutdown pin is pulled low. To disable the amplifier,

the shutdown supply current drops to 0.1μA (TYP) per

amplifier. When in shutdown mode the operational

amplifier output is driven to -V_S. Pull the shutdown pin

high to enable the amplifier. Figure 7 shows the output

voltage to a shutdown pulse. The SGM8604-3/5

typically settle within 50μs after power-up.

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 8.

The ceramic capacitors should be placed as close as

possible to +V_Sand -V_Spower supply pins.

When exiting shutdown mode, a 10μs delay-time can

be added before the amplifier’s output become active

(Figure 7).

+V_S

10μF

0.1μF

V_N

V_P

V_N

V_P

V_OUT

SGM8604-1

10μF

-V_S(GND)

0.1μF

Time (20μs)

-V_S

Figure 8. Amplifier Power Supply Bypassing

Figure 7. Enable or Disable the Output Voltage

SG Micro Corp

www.sg-micro.com

JANUARY 2019

SGM8604-1/SGM8604-2

SGM8604-3/SGM8604-5

15MHz, High Output Drive, High Precision,

Low Noise Operational Amplifiers

REVISION HISTORY

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

JANUARY 2019 ‒ REV.A.2 to REV.A.3

Page

Changed Figure 2................................................................................................................................................................................................9

APRIL 2018 ‒ REV.A.1 to REV.A.2

Page

Changed Package/Ordering Information section.......................................................................................................................................................... 2

NOVEMBER 2017 ‒ REV.A to REV.A.1

Page

Changed Electrical Characteristics section .................................................................................................................................................................. 4

Changed Typical Performance Characteristics section ....................................................................................................................................7, 8

Changes from Original (DECEMBER 2016) to REV.A

Page

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

SG Micro Corp

www.sg-micro.com

JANUARY 2019

PACKAGE INFORMATION

PACKAGE OUTLINE DIMENSIONS

UTDFN-1.45×1-6L

TOP VIEW

BOTTOM VIEW

0.30

0.49

0.75

SIDE VIEW

0.5

RECOMMENDED LAND PATTERN (Unit: mm)

Dimensions

In Millimeters

Dimensions

In Inches

Symbol

MIN

MAX

0.550

0.050

MIN

0.018

0.000

MAX

0.022

0.002

0.450

0.000

0.150 REF

0.500 TYP

0.006 REF

0.020 TYP

1.374

0.924

0.180

1.526

1.076

0.300

0.054

0.036

0.007

0.060

0.042

0.012

0.274

0.426

0.011

0.017

SG Micro Corp

www.sg-micro.com

TX00069.000

PACKAGE INFORMATION

PACKAGE OUTLINE DIMENSIONS

TDFN-2×3-8AL

BOTTOM VIEW

TOP VIEW

1.40

0.70

2.90

1.60

SIDE VIEW

0.25

0.50

RECOMMENDED LAND PATTERN (Unit: mm)

Dimensions

In Millimeters

Dimensions

In Inches

Symbol

MIN

MAX

0.800

0.050

MIN

0.028

0.000

MAX

0.031

0.002

0.700

0.000

0.203 REF

0.008 REF

1.900

1.300

2.900

1.500

2.100

1.500

3.100

1.700

0.075

0.051

0.114

0.059

0.083

0.059

0.122

0.067

0.300 REF

0.012 REF

0.200

0.300

0.500

0.008

0.012

0.020

0.180 REF

0.500 BSC

0.007 REF

0.020 BSC

SG Micro Corp

www.sg-micro.com

TX00127.000

PACKAGE INFORMATION

PACKAGE OUTLINE DIMENSIONS

TDFN-3×3-10L

N10

BOTTOM VIEW

TOP VIEW

2.4

1.7 2.8

0.6

SIDE VIEW

0.24

0.5

RECOMMENDED LAND PATTERN (Unit: mm)

Dimensions

In Millimeters

Dimensions

In Inches

Symbol

MIN

MAX

0.800

0.050

MIN

0.028

0.000

MAX

0.031

0.002

0.700

0.000

0.203 REF

0.008 REF

2.900

2.300

2.900

1.500

3.100

2.600

3.100

1.800

0.114

0.091

0.114

0.059

0.122

0.103

0.122

0.071

0.200 MIN

0.500 TYP

0.008 MIN

0.020 TYP

0.180

0.300

0.500

0.007

0.012

0.020

SG Micro Corp

TX00060.000

www.sg-micro.com

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

UTDFN-1.45×1-6L

TDFN-2×3-8AL

TDFN-3×3-10L

7″

9.5

1.15

2.30

3.35

1.60

3.30

3.35

0.75

1.10

1.13

4.0

8.0

2.0

8.0

13″

12.4

12.0

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

SGM8604-1 [SGMICRO]

相关型号：

SI9130DB

SI9135LG-T1

SI9135LG-T1-E3

SI9135_11

SI9136_11

SI9130CG-T1-E3

SI9130LG-T1-E3

SI9130_11

SI9137

SI9137DB

SI9137LG

SI9122E