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1N4614UR-1 – 1N4627UR-1e3,

1N4099UR-1 – 1N4135UR-1e3

500 mW Metallurgically Bonded

Glass Surface Mount Zener Diodes

Qualified per MIL-PRF-19500/435

DESCRIPTION

The 1N4099UR-1 through 1N4135UR-1 and 1N4614UR-1 through 1N4627UR-1 series are

500 mW, Zener voltage regulators in the surface mount, glass DO-213AA package. Voltages

from 1.8 to 100V in 5%, 2%, and 1% tolerances are available. They are constructed with an

internal metallurgical bond and are mil-qualified up to the JANS level for high reliability

applications.

Available on

commercial

versions

Qualified Levels:

JAN, JANTX,

JANTXV and JANS

Important:

For the latest information, visit our website

http://www.microsemi.com.

FEATURES

•

Surface mount equivalent to JEDEC registered 1N4099 through 1N4135 and 1N4614 through

1N4627 series.

Internal metallurgical bond.

Max noise density 40 μV / √Hz for 6.8 V and up. Falls quickly to 1 μV / √Hz at lower voltages.

JAN, JANTX, JANTXV and JANS qualifications are available per MIL-PRF-19500/435.

This series is also available commercially with the CDLL prefix (CDLL4099-1 – CDLL4135-1 and

CDLL4614-1 – CDLL4627-1). This CDLL prefix also replaces the MLL prefix on prior devices.

RoHS compliant versions available (commercial grade only).

DO-213AA

Package

Also available in:

DO-35 package

(axial-leaded)

1N4099-1 – 1N4135-1 and

1N4614-1 – 1N4627-1

DO-216 package

(tabbed surface mount)

1PMT4099 – 1PMT4135 and

1PMT4614 – 1PMT4627

APPLICATIONS / BENEFITS

•

Regulates voltage over broad ranges of current and temperature.

Extensive selection from 1.8 to 100 volts.

Voltage tolerances of 5% (standard), 2% and 1% are available.

Hermetically sealed surface mount package.

Non-sensitive to ESD per MIL-STD-750 method 1020.

Minimal capacitance (see

Figure 3).

Inherently radiation hard as described in Microsemi

MicroNote 050.

MAXIMUM RATINGS

@ T

= +25 ºC unless otherwise specified

Parameters/Test Conditions

Junction and Storage Temperature

(1)

Thermal Resistance Junction-to-Ambient

Thermal Resistance Junction-to-End Cap

(2)

Rated Average Power Dissipation

Forward Voltage @ 200 mA

Solder Temperature @ 10 s

Symbol

and T

STG

ӨJA

ӨJEC

M(AV)

Value

-65 to +175

300

100

0.5

1.1

260

Unit

C/W

MSC – Lawrence

6 Lake Street,

Lawrence, MA 01841

Tel: 1-800-446-1158 or

(978) 620-2600

Fax: (978) 689-0803

MSC – Ireland

Gort Road Business Park,

Ennis, Co. Clare, Ireland

Tel: +353 (0) 65 6840044

Fax: +353 (0) 65 6822298

Website:

www.microsemi.com

Notes:

1. When mounted on FR4 PC board (1 oz Cu) with recommended footprint (see

last page).

2. The 0.5 W linearly derates starting at T

= 125 °C and goes to zero at 175 °C. For ambient T

condition on a typical PC board, it linearly derates from 500 mW starting at 25 °C and goes to zero at

175 °C (see

Figure 2).

T4-LDS-0245, Rev. 2 (5/31/13)

Page 1 of 6

1N4614UR-1 – 1N4627UR-1e3,

1N4099UR-1 – 1N4135UR-1e3

MECHANICAL and PACKAGING

•

CASE: Hermetically sealed glass DO-213AA (SOD80 or CDLL34) MELF style package.

TERMINALS: Tin-lead or RoHS compliant annealed matte-tin (on commercial grade only) plating. Solderable per MIL-STD-750,

method 2026.

POLARITY: Cathode indicated by banded end. Diode is to be operated with the banded end positive with respect to the opposite

end for Zener regulation.

MARKING: Cathode band only.

TAPE & REEL option: Standard per EIA-481-1-A with 12 mm tape (add “TR” suffix to part number). Consult factory for quantities.

WEIGHT: Approximately 0.04 grams.

See

Package Dimensions

on last page.

PART NOMENCLATURE

JAN

Reliability Level

JAN = JAN level

JANTX = JANTX level

JANTXV = JANTXV level

JANS = JANS level

Blank = Commercial

JEDEC type number

(See

Electrical Characteristics

table)

Zener Voltage Tolerance

Blank = 5%

C = 2%

D = 1%

1N4099 C UR

-1

(e3)

RoHS Compliance

e3 = RoHS compliant (available

on commercial grade only)

Blank = non-RoHS compliant

Metallurgically Bonded

Surface Mount Package

CDLL

Microsemi Designation

JEDEC type number

(See

Electrical Characteristics

table)

Zener Voltage Tolerance

Blank = 5%

C = 2%

D = 1%

4099

-1

(e3)

RoHS Compliance

e3 = RoHS compliant Blank =

non-RoHS compliant

Metallurgically Bonded

T4-LDS-0245, Rev. 2 (5/31/13)

Page 2 of 6

1N4614UR-1 – 1N4627UR-1e3,

1N4099UR-1 – 1N4135UR-1e3

SYMBOLS & DEFINITIONS

Definition

Temperature Coefficient of Regulator Voltage: The change in regulator voltage divided by the change in temperature

that caused it expressed in %/C or mV/°C.

Reverse Current: The maximum reverse (leakage) current that will flow at the specified voltage and temperature.

Regulator Current: The dc regulator current (I

), at a specified test point (I

), near breakdown knee (I

Maximum Regulator (Zener) Current: The maximum rated dc current for the specified power rating.

Noise Density: The noise generated over a specified frequency bandwidth usually specified in terms of mV/ √Hz.

Reverse Voltage: The reverse voltage dc value, no alternating component.

Zener Voltage: The Zener voltage the device will exhibit at a specified current (I

) in its breakdown region.

Dynamic Impedance: The small signal impedance of the diode when biased to operate in its breakdown region at a

specified rms current modulation (typically 10% of I

or I

) and superimposed on I

or I

respectively.

Symbol

, I

or Z

T4-LDS-0245, Rev. 2 (5/31/13)

Page 3 of 6

1N4614UR-1 – 1N4627UR-1e3,

1N4099UR-1 – 1N4135UR-1e3

ELECTRICAL CHARACTERISTICS

@ 25

°C

unless otherwise stated

NOMINAL

ZENER

VOLTAGE

ZENER

TEST

CURRENT

MAXIMUM

ZENER

IMPEDANCE

MAXIMUM

REVERSE

CURRENT

MAXIMUM

NOISE

DENSITY

MAXIMUM

ZENER

CURRENT

MAXIMUM

TEMP.COEFF.

OF ZENER

VOLTAGE

INDUSTRY

PART NUMBER

(Note 1)

MICROSEMI

PART NUMBER

(Note 1)

@ I

(Note 2)

µA

250

(Note 3)

@ V

µA

3.5

2.5

2.0

1.0

0.5

0.4

3.5

2.5

2.0

5.0

1.0

0.5

0.05

0.01

Volts

1.0

1.5

2.0

3.0

4.0

5.0

5.2

5.7

6.3

6.7

7.0

7.6

8.5

9.2

9.9

10.7

11.4

12.2

13.0

13.7

14.5

15.2

16.8

18.3

19.0

20.5

21.3

22.8

25.1

27.4

29.7

32.7

35.8

38.8

42.6

45.6

47.1

51.7

57.0

62.4

66.2

69.2

76.0

@ I

µV/√Hz

120.0

110.0

100.0

95.0

90.0

87.0

85.0

83.0

80.0

77.0

75.0

70.0

65.0

61.0

56.0

51.0

46.0

44.0

42.0

38.0

35.0

32.0

29.0

27.0

25.0

24.0

22.0

21.0

20.0

19.0

17.0

16.0

15.0

14.0

13.0

12.0

11.0

9.8

8.9

8.1

7.5

6.7

6.4

6.1

5.6

5.1

4.6

4.4

4.2

3.8

1N4614UR-1

1N4615UR-1

1N4616UR-1

1N4617UR-1

1N4618UR-1

1N4619UR-1

1N4620UR-1

1N4621UR-1

1N4622UR-1

1N4623UR-1

1N4624UR-1

1N4625UR-1

1N4626UR-1

1N4627UR-1

1N4099UR-1

1N4100UR-1

1N4101UR-1

1N4102UR-1

1N4103UR-1

1N4104UR-1

1N4105UR-1

1N4106UR-1

1N4107UR-1

1N4108UR-1

1N4109UR-1

1N4110UR-1

1N4111UR-1

1N4112UR-1

1N4113UR-1

1N4114UR-1

1N4115UR-1

1N4116UR-1

1N4117UR-1

1N4118UR-1

1N4119UR-1

1N4120UR-1

1N4121UR-1

1N4122UR-1

1N4123UR-1

1N4124UR-1

1N4125UR-1

1N4126UR-1

1N4127UR-1

1N4128UR-1

1N4129UR-1

1N4130UR-1

1N4131UR-1

1N4132UR-1

1N4133UR-1

1N4134UR-1

1N4135UR-1

CDLL4614-1

CDLL4615-1

CDLL4616-1

CDLL4617-1

CDLL4618-1

CDLL4619-1

CDLL4620-1

CDLL4621-1

CDLL4622-1

CDLL4623-1

CDLL4624-1

CDLL4625-1

CDLL4626-1

CDLL4627-1

CDLL4099-1

CDLL4100-1

CDLL4101-1

CDLL4102-1

CDLL4103-1

CDLL4104-1

CDLL4105-1

CDLL4106-1

CDLL4107-1

CDLL4108-1

CDLL4109-1

CDLL4110-1

CDLL4111-1

CDLL4112-1

CDLL4113-1

CDLL4114-1

CDLL4115-1

CDLL4116-1

CDLL4117-1

CDLL4118-1

CDLL4119-1

CDLL4120-1

CDLL4121-1

CDLL4122-1

CDLL4123-1

CDLL4124-1

CDLL4125-1

CDLL4126-1

CDLL4127-1

CDLL4128-1

CDLL4129-1

CDLL4130-1

CDLL4131-1

CDLL4132-1

CDLL4133-1

CDLL4134-1

CDLL4135-1

Volts

1.8

2.0

2.2

2.4

2.7

3.0

3.3

3.6

3.9

4.3

4.7

5.1

5.6

6.2

6.8

7.5

8.2

8.7

9.1

10.0

11.0

12.0

13.0

14.0

15.0

16.0

17.0

18.0

19.0

20.0

22.0

24.0

25.0

27.0

28.0

30.0

33.0

36.0

39.0

43.0

47.0

51.0

56.0

60.0

62.0

68.0

75.0

82.0

87.0

91.0

100.0

Ohms

1200

1250

1300

1400

1500

1600

1650

1700

1650

1600

1550

1500

1400

1200

200

100

150

200

250

300

400

500

700

800

1000

1200

1600

-0.075

-0.065

-0.060

-0.050

-0.050,+0.020

-0.045,+0.030

-0.020,+0.040

-0.010,+0.050

+0.060

+0.065

+0.070

+0.075

+0.080

+0.085

+0.090

+0.095

+0.100

SEE NOTES ON NEXT PAGE.

T4-LDS-0245, Rev. 2 (5/31/13)

Page 4 of 6

1N4614UR-1 – 1N4627UR-1e3,

1N4099UR-1 – 1N4135UR-1e3

NOTE 1:

These may be ordered as either 1N4614UR-1 thru 1N4627UR-1 and 1N4099UR-1 thru 1N4135UR-1 or CDLL4614-1 thru CDLL4627-1 and

CDLL4099-1 thru CDLL4135-1. For 1N military types, add the JAN, JANTX, JANTXV prefix for required screening to the industry part

number.

NOTE 2:

The JEDEC type numbers shown above have a standard tolerance of +/-5% on the nominal Zener voltage. V

is measured with the diode in

thermal equilibrium (still air) at 25

C for end-cap terminations.

NOTE 3:

Zener impedance is derived by superimposing on I

a 60 Hz rms ac current at 10% of I

. See

MicroNote 202

for Z

variation with I

GRAPHS

Rated Power Dissipation (mW)

Temperature ( C)

FIGURE 2 –

Power Derating Curve

FIGURE 1

–

Noise Density Measurement Circuit

Noise density, (N

) is specified in microvolt-rms per square-root-hertz.

Actual measurement is performed using a 1 KHz to 3 KHz frequency

bandpass filter at a constant Zener test current (I

) at 25

C ambient

temperature. N

is calculated from the formula.

Typical Capacitance in Picofarads (pF)

Zener Voltage V

FIGURE 3 –

Capacitance vs. Zener Voltage (Typical)

T4-LDS-0245, Rev. 2 (5/31/13)

Page 5 of 6