MAX6920AWP+T (Maxim) PDF资料下载 Datasheet(8/10 页)

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参数资料

型号：	MAX6920AWP+T
厂商：	Maxim Integrated
文件页数：	8/10页
文件大小：	0K
描述：	IC DRVR VFD TUBE SRL 20-SOIC
产品培训模块：	Lead (SnPb) Finish for COTS Obsolescence Mitigation Program
标准包装：	1,000
显示器类型：	真空荧光 (VF)
接口：	4 线串行
电流 - 电源：	1mA
电源电压：	8 V ~ 76 V
工作温度：	-40°C ~ 125°C
安装类型：	表面贴装
封装/外壳：	20-SOIC（0.295"，7.50mm 宽）
供应商设备封装：	20-SOIC W
包装：	带卷 (TR)

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12-Output, 76V, Serial-Interfaced

VFD Tube Driver

Since dissipation is proportional to current squared, the

maximum current that can be delivered for a given mul-

tiplex ratio is given by:

I PEAK = (grids x 1600) 1/2 mA

where grids is the number of grids in a multiplexed display.

This means that a duplex application (two grids) can use

a repetitive peak current of 56.5mA, a triplex application

(three grids) can use a repetitive peak current of 69.2mA,

and higher multiplex ratios are limited to 75mA.

Paralleling Outputs

Any number of outputs within the same package may

be paralleled in order to raise the current drive or

reduce the output resistance. Only parallel outputs

directly (by shorting outputs together) if the interface

control can be guaranteed to set the outputs to the

same level. Although the sink output is relatively weak

(typically 750 ? ), that resistance is low enough to dissi-

pate 530mW when shorted to an opposite level output

at a V BB voltage of only 20V. A safe way to parallel out-

puts is to use diodes to prevent the outputs from sink-

ing current ( Figure 4). Because the outputs cannot sink

current from the VFD tube, an external discharge resis-

higher for multiplexed tubes. When using multiple dri-

ver devices, try to share the average dissipation evenly

between the drivers.

Determine the power dissipation (P D ) for the MAX6920

for static tube drivers with the following equation:

P D = (V CC x I CC ) + (V BB x I BB ) + ((V BB - V H ) x

I ANODE x A))

where:

A = number of anodes driven (a MAX6920 can drive a

maximum of 12).

I ANODE = maximum anode current.

(V BB - V H ) is the output voltage drop at the given maxi-

mum anode current I OUT .

A static tube dissipation example follows:

V CC = 5V ±5%, V BB = 10V to 18V, A = 12, I OUT = 2mA

P D = (5.25V x 0.7mA) + (18V x 0.9mA) + ((2.5V x

2mA/25mA) x 2mA x 12) = 24.7mW

Determine the power dissipation (P D ) for the MAX6920

for multiplex tube drivers with the following equation:

P D = (V CC x I CC ) + (V BB x I BB ) + ((V BB - V H ) x I ANODE

tor, R, is required. For static tubes, R can be a large

value such as 100k ? . For multiplexed tubes, the value

of the resistor can be determined by the load capaci-

where:

x A) + ((V BB - V H ) x I GRID ))

tance and timing characteristics required. Resistor Rl

discharges tube capacitance C to 10% of the initial

voltage in 2.3 x RC seconds. So, for example, a 15k ?

value for R discharges 100pF tube grid or anode from

40V to 4V in 3.5μs, but draws an additional 2.7mA from

the driver when either output is high.

Power Dissipation

Take care to ensure that the maximum package dissi-

pation ratings for the chosen package are not exceed-

ed. Over dissipation is unlikely to be an issue when

driving static tubes, but the peak currents are usually

A = number of anodes driven

G = number of grids driven

I ANODE = maximum anode current

I GRID = maximum grid current

The calculation presumes all anodes are on but only

one grid is on. The calculated P D is the worst case,

presuming one digit is always being driven with all its

anodes lit. Actual P D can be estimated by multiplying

this P D figure by the actual tube drive duty cycle, taking

into account interdigit blanking and any PWM intensity

control.

A multiplexed tube dissipation example follows:

V CC = 5V ±5%, V BB = 36V to 42V, A = 6, G = 6,

I ANODE = 0.4mA, I GRID = 24mA

MAX6920

OUT0

D1

OUTPUT

P D = (5.25V X 0.7mA)+ (42V x 0.9mA) + ((2.5V x

0.4mA/25mA) x 0.4mA x 6) +

OUT1

Figure 4. Paralleling Outputs

D2

R

((2.5V x 24mA/25mA) x 24mA) = 99mW

Thus, for a 20-pin wide SO package (T JA = 1 / 0.01 =

+100 ° C/W from Absolute Maximum Ratings ), the maxi-

mum allowed ambient temperature T A is given by:

T J(MAX) = T A + (P D x T JA ) = +150 ° C = T A + (0.099 x

+100 ° C/W)

So T A = +140 ° C.

8

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MAX6921AQI+T	功能描述:VFD驱动器 12-Output 76V Serial VFD Tube Driver RoHS:否制造商:Maxim Integrated 工作电源电压:8 V to 76 V, 3 V to 5.5 V 电源电流:0.9 mA, 700 uA 最大工作温度:+ 125 C 封装 / 箱体:SOIC-20 封装:Tube
MAX6921AQI-T	功能描述:VFD驱动器 12-Output 76V Serial VFD Tube Driver RoHS:否制造商:Maxim Integrated 工作电源电压:8 V to 76 V, 3 V to 5.5 V 电源电流:0.9 mA, 700 uA 最大工作温度:+ 125 C 封装 / 箱体:SOIC-20 封装:Tube
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