Part Identification Pin #1 1.49 (1.25mm) ±.4.2 (.5mm) ±.6.482 (12.25mm) Part No. XYY Z PPLICTIONS PCKGE DIMENSIONS For industrial and consumer applications such as: Digital readout displays Instrument panels Point of sale equipment Digital clocks TV and radios.291 (7.4mm).512 (13mm).49 (1.25mm) Date Code NOTE: Dimensions in inches (mm) Tolerances ±.1" unless otherwise specified Light Intensity Category ±.12.252.276 (6.4mm) (7.mm).417 ±.12 (1.6mm). (2.54mm) E F D G C +.12.689 -.4 (17.5mm) ±.2.12 (.3mm) ±.6.6 (15.24mm) DP DESCRIPTION This display series is a family of large digits.51 inches in height. ll models have right hand decimal points and are availble in common anode or common cathode configurations. ll units are constructed with untinted segments on grey face to enhance ON/OFF contrast. Standard units are available in red, orange-red, green and yellow. FETURES Large, easy to read, digits Common anode or common cathode models Fast switching excellent for multiplexing Low power consumption old solid segments that are highly legible Solid state reliability long operation life Rugged plastic construction Directly compatible with integrated circuits High brightness with high contrast Categorized for Luminous Intensity (See Note 5) Wide angle viewing...1 Low forward voltage Untinted segments on grey face MODEL NUMERS Part Number Color Description MN53 MN536 MN54 MN546 MN57 MN576 MN59 MN596 Yellow Yellow Green Green Red Red HER HER Common node Common Cathode Common node Common Cathode Common node Common Cathode Common node Common Cathode Pin Out Specification (See Page 5) Page 1 of 1
ELECTRO-OPTICL CHRCTERISTICS (T = 25 C Unless Otherwise Specified) Parameter Min. Typ. Max. Units Test Condition Yellow MN53/MN536 Luminous Intensity, digit average (See Note 1) 82 12 4 I F = 1 m I F = 5 m Peak emission wavelength 585 nm I F = 1 m Dominant wavelength 582 593 nm I F = 1 m Spectral line half width 4 nm Forward voltage 2.4 3. V I F = 2 m Dynamic resistance 26 I F = 2 m Capacitance 35 pf V R =, f = 1MHz Reverse current 1 µ V R = 6. V Green MN54/MN546 Luminous Intensity, digit average (See Note 1) 82 3 I F = 1 m I F = 5 m Peak emission wavelength 562 nm I F = 1 m Dominant wavelength 564 574 nm I F = 1 m Spectral line half width 3 nm Forward voltage 2.4 3. V I F = 2 m Dynamic resistance 12 I F = 2 m Capacitance 4 pf V R =, f = 1MHz Reverse current 1 µ V R = 6. V Page 2 of 1
ELECTRO-OPTICL CHRCTERISTICS (T = 25 C Unless Otherwise Specified) Parameter Min. Typ. Max. Units Test Condition Red MN57/MN576 Luminous Intensity, digit average (See Note 1) 2 2 I F = 1 m I F = 5 m Peak emission wavelength 655 nm I F = 1 m Dominant wavelength 645 nm I F = 1 m Spectral line half width 2 nm Forward voltage 1.6 2. V I F = 2 m Dynamic resistance 2 I F = 2 m Capacitance 35 pf V R =, f = 1MHz Reverse current 1 µ V R = 6. V HER MN59/MN596 Luminous Intensity, digit average (See Note 1) 82 2 7 I F = 1 m I F = 5 m Peak emission wavelength 635 nm I F = 1 m Dominant wavelength 615 63 nm I F = 1 m Spectral line half width 4 nm Forward voltage 2. 3. V I F = 2 m Dynamic resistance 26 I F = 2 m Capacitance 35 pf V R =, f = 1MHz Reverse current 1 µ V R = 6. V Page 3 of 1
SOLUTE MXIMUM RTINGS Rating MN53 MN536 MN54 MN546 MN57 MN576 MN59 MN596 Power dissipation at 25 C ambient 6 mw 57 mw 4 mw 6 mw Derate linearly from C -1.3 mw/ C -12 mw/ C -6.9 mw/ C -8.6 mw/ C Storage and operating temperature -4 C to +85 C -4 C to +85 C -4 C to +85 C -4 C to +85 C Continuous forward current Total Per segment Decimal point Reverse voltage Per segment Decimal point 2 m 25 m 25 m 6. V 6. V 24 m 3 m 3 m Notes: 1. The digit average Luminous Intensity is obtained by summing the Luminous Intensity of each segment and dividing by the total number of segments. Intensity will not vary more than ±33.3% between all segments within a digit. 2. The relative Luminous Intensity in this curve is normalized to the brightness at 25 C to indicate the relative efficiency over the operating temperature range. 3. Leads of the device immersed to 1/16 inch from the body. Maximum device surface temperature is 14 C. 4. For flux removal, Freon TF, Freon TE, Isoproponal or water may be used to up their boiling points. 5. ll displays are categorized for Luminous Intensity. The intensity category is marked on each part as a suffix letter to the part number. 6. V 6. V 24 m 3 m 3 m 6. V 6. V 24 m 3 m 3 m 6. V 6. V Soldering time at 26 C (See Notes 3 and 4) 5 sec. 5 sec. 5 sec. 5 sec. RECOMMENDED OPTICL FILTERS For optimum ON and OFF contrast, one of the following filters or equivalents should be used over the display: Device Type Filter Device Type Filter MN53 MN536 Panelgraphic Yellow 25 or mber 23 Homalite -172 or -1726 Panelgraphic Grey 1 Homalite -1266 Grey MN54 MN546 Panelgraphic Green 48 Homalite -144 Green Panelgraphic Grey 1 Homalite -1266 Grey MN57 MN576 Panelgraphic Red 6 Homalite -165 MN59 MN596 Panelgraphic Scarlet 65 Homalite -167 Page 4 of 1
ELECTRICL CONNECTIONS Pin No. MN5X MN5X6 1 Cathode E node E 2 Cathode D node D 3 Com. node Com. Cathode 4 Cathode C node C 5 Cathode D.P. node D.P. 6 Cathode node 7 Cathode node 8 Com. node Com. Cathode 9 Cathode F node F 1 Cathode G node G INTERNL CONNECTIONS 3 8 3 8 E 1 D 2 C 4 6 7 MN5X F 9 G DP 1 5 E 1 D 2 C 4 6 7 F 9 MN5X6 G DP 1 5 Page 5 of 1
TYPICL CHRCTERISTIC CURVES MN53/MN536 Relative Luminous Intensity 4. NORMLIZED at I F = 1 m 9 3. 7 6 2. 4 3 1. 2 1 5 1 15 2 25 3 1. 2. 3. 4. DC Forward Current I F (m) V F (Volts) IF - m Fig. 1. Relative Luminous Intensity vs. DC Forward Current Fig. 1. Forward Current vs. Forward Voltage Relative rightness - % 12 11 9 Peak IF - m 2 2 FREQUENCY = 2pps 7 - -25 25 7 mbient Temperature C Fig. 1C. Relative Luminous Intensity vs. Temperature (See Note 2) 1 1 2 3 5 8 1 2 3 Fig. 1D. Max Peak Current vs. Duty Cycle 2. Relative Intensity 1.5 1 1 2 4 DC I F Per Seg 1 m verage Fig. 1E. Relative Luminous Intensity vs. Duty Cycle Page 6 of 1
TYPICL CHRCTERISTIC CURVES MN54/MN546 Relative Luminous Intensity 4. NORMLIZED at I F = 1 m 9 3. 7 6 2. 4 3 1. 2 (Dotted Line Indicates Pulsed 1 Operation See Figs 2D, 2E) 5 1 15 2 25 3 1. 2. 3. 4. DC Forward Current I F (m) Forward Voltage V F (Volts) Forward Current - IF (m) Fig. 2. Relative Luminous Intensity vs. DC Forward Current Fig. 2. Forward Current vs.forward Voltage Relative Intensity % 13 12 11 9 NORMLIZED at 25 C Relative Efficiency (IL at drive/il at 1 m DC) 4. 3. 2. 1. I F (VG) = 2 m 1 m 5 m 2.5m 7-55 -25 25 75 mbient Temperature C. 2. 5. 1 2 DC Fig. 2C. Relative Luminous Intensity vs. Temperature (See Note 2) Fig. 2D. Relative Efficiency vs. Duty Cycle Maximum Peak Current - m 6 4 2 6 4 KHz 3 KHz 1. KHz 3 KHz 1 KHz 2 1 1 1. Pulse Duration µs Fig. 2E. Maximum Peak Current vs. Pulse Duration Page 7 of 1
TYPICL CHRCTERISTIC CURVES MN57/MN576 Relative Luminous Intensity 4. NORMLIZED at I F = 1 m 9 3. 7 6 2. 4 3 1. 2 1 5 1 15 2 25 3 5 1 15 2 DC Forward Current I F (m) V F (Volts) IF - m Fig. 3. Relative Luminous Intensity vs. DC Forward Current Fig. 3. Forward Current vs. Forward Voltage Relative rightness - % 17 16 1 14 13 12 11 9 7 6 - -25 25 7 mbient Temperature C Fig. 3C. Relative Luminous Intensity vs. Temperature (See Note 2) Peak IF - m 2 2 2 Relative Intensity FREQUENCY = 2pps 1 1 2 3 5 8 1 2 3 Fig. 3D. Max Peak Current vs. Duty Cycle 1 1 2 4 DC Percent Duty Cycle Fig. 3E. Relative Luminous Intensity vs. Duty Cycle Page 8 of 1
TYPICL CHRCTERISTIC CURVES MN59/MN596 Relative Luminous Intensity 4. NORMLIZED at I F = 1 m 9 3. 7 6 2. 4 3 1. 2 1 5 1 15 2 25 3 4 8 1.2 1.6 2. 2.4 2.8 3.2 3.6 4. DC Forward Current I F (m) Forward Voltage V F (Volts) (IF) - m Fig. 4. Relative Luminous Intensity vs. Forward Current Fig. 4. Forward Current vs. Forward Voltage Relative Intensity % 17 16 1 14 13 12 11 9 7 6 - -25 25 7 mbient Temperature C Fig. 3C. Relative Luminous Intensity vs. Temperature (See Note 2) Peak IF m 2 2 FREQUENCY = 2pps 1 1 3 5 1 2 Fig. 4D. Maximum Peak Current vs. Duty Cycle 2 Relative Intensity 1.5 1 1 2 4 DC I F Per Seg 1 m verage Fig. 4E. Relative Luminous Intensity vs. Duty Cycle Page 9 of 1
DISCLIMER FIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MKE CHNGES WITHOUT FURTHER NOTICE TO NY PRODUCTS HEREIN TO IMPROVE RELIILITY, FUNCTION OR DESIGN. FIRCHILD DOES NOT SSUME NY LIILITY RISING OUT OF THE PPLICTION OR USE OF NY PRODUCT OR CIRCUIT DESCRIED HEREIN; NEITHER DOES IT CONVEY NY LICENSE UNDER ITS PTENT RIGHTS, NOR THE RIGHTS OF OTHERS. LIFE SUPPORT POLICY FIRCHILD S PRODUCTS RE NOT UTHORIZED FOR USE S CRITICL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN PPROVL OF THE PRESIDENT OF FIRCHILD SEMICONDUCTOR CORPORTION. s used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury of the user. 2. critical component in any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. Page 1 of 1