MAX6852AEE+T Maxim Integrated Products, MAX6852AEE+T Datasheet - Page 12

MAX6852AEE+T

Manufacturer Part Number

MAX6852AEE+T

Description

IC VFD CTRLR MATRIX 16QSOP

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX6852AEET.pdf (32 pages)

Specifications of MAX6852AEE+T

Display Type

Vacuum Fluorescent (VF)

Configuration

5 x 7 (Matrix)

Interface

Serial

Current - Supply

3.5mA

Voltage - Supply

2.7 V ~ 3.6 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

16-QSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Digits Or Characters

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4-Wire Interfaced, 5

Fluorescent Display Controller

Table 6. Character Registers Format

The S bit in the configuration register selects shutdown

or normal operation (Table 16). The display driver can

be programmed while in shutdown mode, and shut-

down mode is overridden when in display test mode.

For normal operation, set S bit to 1.

When the MAX6852 is in shutdown mode, the multiplex

oscillator is halted at the end of the current 100µs multi-

plex period (OSC = 4MHz), and the VFBLANK output is

used to disable the VFD tube driver. Data in the digit

and other control registers remains unaltered.

If the PUMP output is configured as a square-wave

clock, then the PUMP output is forced low for the dura-

tion of shutdown, and the square-wave clock restored

when the MAX6852 comes out of shutdown.

If the PHASE1 output or PHASE2 output is configured as

a filament driver, then that output is forced low for the

duration of shutdown and the filament drive waveforms

restored when the MAX6852 comes out of shutdown.

When the MAX6852 comes out of shutdown, the exter-

nal VFD tube driver is presumed to contain invalid data.

The VFBLANK output is used to disable the VFD tube

driver for the first multiplex cycle after exiting shutdown,

clearing any invalid data. The next multiplex cycle uses

newly sent valid data.

The configuration lock register is a safety feature to

reduce the risk of the VFD configuration settings being

inadvertently changed due to spurious writes if soft-

ware fails. When set, the shift-limit register (0x0E), grids

read but cannot be written. The output map data point-

er itself may be written in order to allow the output map

data to be read back (Table 17).

The B bit in the configuration register selects the blink

rate of the cursor and annunciator segments. This is the

speed that the segments blink on and off when blinking

Writing character data to use font map

data with DP segment unlit

Writing character data to use font map

data with DP segment lit

______________________________________________________________________________________

Blink Rate Selection (B Data Bit D2) Format

Configuration Lock (L Data Bit D1) Format

Shutdown Mode (S Data Bit D0) Format

MODE

0x20 to 0x4F (48/1 mode)

0x20 to 0x7F (96/2 mode)

0x20 to 0x4F (48/1 mode)

0x20 to 0x7F (96/2 mode)

COMMAND ADDRESS

7 Matrix Vacuum-

is selected for these segments. The frequency of the

multiplex clock OSC and the setting of the B bit (Table

18) determine the blink rate.

Setting the T bit in multiple MAX6852s at the same time

(or in quick succession) synchronizes the blink timing

across all the devices (Table 19). The display multiplex-

ing sequence is also reset, which can give rise to a

one-time display flicker when the register is written.

When the R bit (Table 20) is set, the segment and

annunciator data are cleared.

The M bit (Table 21) selects the display modes (Table 1).

The display modes trade maximum allowable number of

digits (mode 96/2) against the availability of annunciator

segments (mode 48/1).

When the configuration register is read, the P bit

reflects the blink phase pin at that time (Table 22).

The MAX6852 communicates through an SPI-compati-

ble 4-wire serial interface (Figure 6). The interface has

three inputs, clock (SCLK), chip select (CS), data in

(DIN), and output data out (DOUT). CS must be low to

clock data into or out of the device, and DIN must be

stable when sampled on the rising edge of SCLK.

DOUT is not a specific pin, but instead, any of the

PUMP, PORT0, or PORT1 outputs can be configured to

be DOUT. DOUT is stable on the rising edge of SCLK.

While the SPI protocol expects DOUT to be high

impedance when the MAX6852 is not being accessed,

DOUT on the MAX6852 is never high impedance. SCLK

and DIN can be used to transmit data to other peripher-

als. The MAX6852 ignores all activity on SCLK and DIN

except when CS is low.

Microcontroller 4-Wire Serial Interface

Global Clear Digit Data (R Data Bit D5) Format

Blink Phase Readback (P Data Bit D7) Format

Bits D6 to D0 select font characters 0 to 127

Display Mode (M Data Bit D6) Format

Global Blink Timing Synchronization

(T Data Bit D4) Format

MAX6852AEE+T Maxim Integrated Products, MAX6852AEE+T Datasheet - Page 12

MAX6852AEE+T

Specifications of MAX6852AEE+T

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