LM3916MWC National Semiconductor Corporation, LM3916MWC Datasheet - Page 11

LM3916MWC

Manufacturer Part Number

LM3916MWC

Description

Dot/bar Display Driver

Manufacturer

National Semiconductor Corporation

Datasheet

1.LM3916MWC.pdf (27 pages)

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Application Hints

Design Equations

Peak Program Meter

The VU meter, originally intended for signals sent via tele-

phone lines, has shortcomings when used in high fidelity

systems. Due to its slow response time, a VU meter will not

accurately display transients that can saturate a magnetic

tape or drive an amplifier into clipping. The fast-attack peak

program meter (PPM) which does not have this problem is

becoming increasingly popular.

While several European organizations have specifications

for peak program meters, the German DIN specification

45406 is becoming a de facto standard. Rather than respond

instantaneously to peak, however, PPM specifications re-

quire a finite “integration time” so that only peaks wide

enough to be audible are displayed. DIN 45406 calls for a re-

sponse of 1 dB down from steady-state for a 10 ms tone

burst and 4 dB down for a 3 ms tone burst. These require-

ments are consistent with the other frequently encountered

spec of 2 dB down for a 5 ms burst and are met by an attack

time constant of 1.7 ms.

The specified return time of 1.5s to −20 dB requires a

650 ms decay time constant. The full-wave peak detector of

Figure 6 satisfies both the attack and decay time criteria.

GAIN

100k

43k

FIGURE 7. Full-Wave Average Detector to VU Meter Specifications

2.0

1.0

(Continued)

0.056 µF

0.56 µF

DS007971-14

Cascading The LM3916

The LM3916 by itself covers the 23 dB range of the conven-

tional VU meter. To display signals of 40 dB or 70 dB dy-

namic range, the LM3916 may be cascaded with the 3 dB/

step LM3915s. Alternatively, two LM3916s may be cascaded

for increased resolution over a 28 dB range. Refer to the Ex-

tended Range VU Meter and High Resolution VU Meter in

the Typical Applications section for the complete circuits for

both dot and bar mode displays.

To obtain a display that makes sense when an LM3915 and

an LM3916 are cascaded, the −20 dB output from the

LM3916 is dropped. The full-scale display for the LM3915 is

set at 3 dB below the LM3916’s −10 dB output and the rest

of the thresholds continue the 3 dB/step spacing. A simple,

low cost approach is to set the reference voltage of the two

chips 16 dB apart as in Figure 5 . The LM3915, with pin 8

grounded, runs at 1.25V full-scale. R1 and R2 set the

LM3916’s reference 16 dB higher or 7.89V. Variation in the

two on-chip references and resistor tolerance may cause a

jectionable, R2 can be trimmed.

The drawback of the aforementioned approach is that the

threshold of LED # 1 on the LM3915 is only 56 mV. Since

comparator offset voltage may be as high as 10 mV, large er-

rors can occur at the first few thresholds. A better approach,

as shown in Figure 9 , is to keep the reference the same for

1 dB error in the −10 dB to −13 dB transition. If this is ob-

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LM3916MWC National Semiconductor Corporation, LM3916MWC Datasheet - Page 11

LM3916MWC

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