MICRF506BML Micrel Inc, MICRF506BML Datasheet - Page 26

MICRF506BML

Manufacturer Part Number

MICRF506BML

Description

Manufacturer

Micrel Inc

Datasheet

1.MICRF506BML.pdf (42 pages)

Specifications of MICRF506BML

Operating Frequency (max)

450000kHz

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Modulation Type

FSK

Lead Free Status / Rohs Status

Not Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MICRF506BML

Manufacturer:

MICREL

Quantity:

380

Company:

H&T Electronics

Part Number:

MICRF506BML TR

Quantity:

710

Current page: 26 of 42
Download datasheet (2Mb)

Modulator

The

programmable

waveform is fed into a modulation varactor in the

VCO, which will create the desired frequency

modulation.

narrowed by increasing the rise-and fall times of the

waveform.

The modulator waveform is created by charging and

discharging a capacitor. A modulator clock controls

the timing, as shown in Figure19. For every rise-and

fall edge, 4 clock periods are being used. The

charging current during these 4 clock periods are not

equal, this is to reduce the high frequency

components in the waveform, which in turn will

narrow the frequency spectrum.

The frequency deviation can be set in three different

ways, as will be explained below. A formula for

setting the desired deviation is given at the end of

this chapter.

Modulator Clock

The modulator clock frequency is set by:

where f

Figure 19, f

Refclk_K is a 6 bit number and Mod_clkS is a 3 bit

number. Mod_clkS can be set to a value between 0

and 7. The modulator clock frequency should be set

according to the bit rate and shaping.

0000100

0000101

0000110

0000111

A6..A0

July 2006

Figure 19. Modulator Waveform and Clock

modulator

Modulator Clock

Modulator Waveform

MOD_CLK

MPOD_CLK

BitRate_clkS1

Mod_F2

XCO

The

is the modulator clock shown in

amplitude

is the crystal oscillator frequency

will

frequency spectrum

Refclk_K

BitRate_clkS0

create

Mod_clkS2

Mod_F1

and

XCO

frequency.

−

waveform

Mod_clkS1

Mod_clkS

RefClk_K5

Mod_F0

‘0’

)

can

This

Mod_clkS0

with

RefClk_K4

Mod_I4

‘1’

BitSync_clkS2

A f

corresponds to a signal filtered in a Gaussian filter

with a Bandwidth Period product (BT) of 1. When BT

is increased, the waveform will be less filtered.

Minimum BT is 1 (f

Figure 20 shows two waveforms with BT=1 and

BT=2, i.e. the f

the bit rate. When changing the BT factor, the

charge-and discharge times will also be changed,

and therefore the frequency deviation, as shown in

Figure 19.

Modulator Current

The current used during the rise- and fall times can

be programmed with the Mod_I4..Mod_I0 bit, the

last one being LSB. Figure 21 shows two waveforms

generated

higher frequency deviation and vice versa. The

effect of modulator clock and MOD_1 is illustrated

by:

To avoid saturation in the modulator it is important

not to exceed maximum Mod_I. Maximum Mod_I for

a given fMOD_clk is given by:

where INT() returns the integer part of the argument.

Mod

RefClk_K3

Mod_A3

Mod_I3

Figure 20. Two Different Modulator Clock Setting

MOD_CLK

Mod_clkb > Mod_clka

of 8 times the bit rate (as in Figure 20)

with

Mod_clka

Mod_clkb

MOD_I

BitSync_clkS1

Mod

RefClk_K2

MOD_CLK

Mod_A2

Mod_I2

DEVIATION

MAX

two

MOD_CLK

= INT(f

is 8 and 16 times higher than

. Higher current will give a

different

MOD_CLK

BitSync_clkS0

RefClk_K1

MOD_1

MOD_CLK

is 8 times the bitrate).

Mod_A1

Mod_I1

⋅ 28 × 10

currents,

+1 408-944-0800

) - 1

M9999-092904

BitRate_clkS2

RefClk_K0

Mod_A0

Mod_I0

where

MICRF506BML Micrel Inc, MICRF506BML Datasheet - Page 26

MICRF506BML

Specifications of MICRF506BML

Available stocks

Related parts for MICRF506BML