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Rainbow Electronics MAX6964 User Manual

Page 14

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MAX6964

17-Output LED Driver/GPO
with Intensity Control

14

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PWM Intensity Control

The MAX6964 includes an internal oscillator, nominally
32kHz, to generate PWM timing for LED intensity control
or other applications such as PWM trim DACs. PWM can
be disabled entirely for all the outputs. In this case, all
outputs are static and the MAX6964 operating current is
lowest because the internal PWM oscillator is turned off.

The MAX6964 can be configured to provide any combi-
nation of PWM outputs and glitch-free logic outputs.
Each PWM output has an individual 4-bit intensity con-
trol (

Table 12

). When all outputs are to be used with the

same PWM setting, the outputs can be controlled
together instead using the global intensity control
(

Table 11

).

Table 8

shows how to set up the MAX6964

to suit a particular application.

PWM Timing

The PWM control uses a 240-step PWM period, divided
into 15 master intensity timeslots. Each master intensity
timeslot is divided further into 16 PWM cycles (

Figure 12

).

The master intensity operates as a gate, allowing the indi-
vidual output settings to be enabled from 1 to 15 timeslots
per PWM period (Figures 13, 14, and 15) (

Table 11

).

Each output’s individual 4-bit intensity control only
operates during the number of timeslots gated by the
master intensity. The individual controls provide 16
intensity settings from 1/16 through 16/16 (

Table 12

).

Figures 16, 17, and 18

show examples of individual

intensity control settings. The highest value an individ-
ual or global setting can be set to is 16/16. This setting
forces the output to ignore the master control, and fol-
low the logic level set by the appropriate blink phase
register bit. The output becomes a glitch-free static out-
put with no PWM.

Using PWM Intensity Controls with Blink Disabled

When blink is disabled (

Table 5

), the blink phase 0 regis-

ters specify each output’s logic level during the PWM on-
time (

Table 6

). The effect of setting an output’s blink

phase 0 register bit to zero or 1 is shown in

Table 9

. With

its output bit set to zero, an LED can be controlled with 16
intensity settings from 1/16th duty through fully on, but
cannot be turned fully off using the PWM intensity control.
With its output bit set to 1, an LED can be controlled with
16 intensity settings from fully off through 15/16th duty.

Using PWM Intensity Controls with Blink Enabled

When blink is enabled (

Table 5

), the blink phase 0 regis-

ters and blink phase 1 registers specify each output’s
logic level during the PWM on-time during the respective
blink phases (

Tables 6 and 7

). The effect of setting an

output’s blink phase x register bit to 0 or 1 is shown in

Table 10.

LEDs can be flipped between either directly on

and off, or between a variety of high/low PWM intensities.

Figure 12. PWM Timing

ONE PWM PERIOD IS 240 CYCLES OF THE 32kHz PWM

OSCILLATOR; A PWM PERIOD CONTAINS 15 MASTER

INTENSITY TIMESLOTS

1 2 3 4 5 6 7 8 9

10 11

12 13 14 15

14 15

1 2

EACH MASTER INTENSITY

TIMESLOT CONTAINS 16

PWM CYCLES

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

15 16

1 2

Figure 11. BLINK Logic

BLINK ENABLE FLAG E

BLINK FLIP FLAG B

BLINK INPUT

BLINK PHASE
REGISTERS